FR2974698A1 - Remote control system for electrical equipment e.g. air-conditioning equipment, in building, has web server transmitting commands received from web client to centralized technical management server for controlling electrical equipment - Google Patents

Abstract

The system has a web server (3) to send and receive information to and from a centralized technical management server (4) in a building (6). A web client (1) receives data and issues commands to the web server through a communications network i.e. Internet (2), where the web server hosts a software service in response to a request from the web client for visualization of data representing power consumption of an electrical equipment (5). The web server transmits the commands received from the web client to the centralized technical management server for controlling the equipment. Independent claims are also included for the following: (1) a method for analyzing power consumption of electrical equipment (2) a method for controlling electrical equipment.

Description

The invention lies in the field of control of home automation equipment. It relates to a method of remote consultation and control of various equipment.

BACKGROUND TECHNOLOGY There are already known systems of centralized technical management (GTC) of buildings. In such systems, data from a wide variety of electrical equipment (air conditioning, lighting, alarm, etc.) is retrieved in a common format, stored in a data server and processed to extract consolidated trends or measurements from multiple data sources. equipment or over a given period.

DESCRIPTION OF THE INVENTION One of the objectives of the system described here is to allow, on the one hand, the visualization of consumption in real time or over a given period of time, on the other hand, to control electrical equipment remotely. In this way, a feedback loop involving a user is put in place, which reduces the power consumption of a building. For this purpose, the invention aims first and foremost at a remote control system for electrical equipment of at least one building, said building being provided with a set of electrical equipment controlled by a management type computer file server. centralized technical system (GTC), the remote control system comprising: at least one computer file server called "web server", adapted to receive and send information to and from the centralized technical management type (GTC) server, said web server hosting a database representative of information received from electrical equipment, - at least one remote computer called "web client", adapted to receive data and to issue commands to the web server, - said web server hosting service software data pages in response to requests from a web client, said software allowing both 1 / a representative data visualization electrical consumption of one or more predetermined electrical equipment, over a predetermined period, and 2 / a piloting of at least some of these electrical equipment, - said web server being adapted to re-transmit in real time the control commands of a device received from a web client to the GTC server corresponding to the building housing said electrical equipment. In a preferred embodiment, the database representative of the operation of the electrical equipment is created by copying at regular intervals data stored in the centralized technical management server GTC. Preferably, the "web server" is adapted to receive and send information to and from the GTC centralized technical management type server, through intrusion protection means and a communications network using a data transfer protocol of the type internet, each "web client", being adapted to receive data and to issue commands to the web server through a communications network using the same type of internet data transfer protocol. In a favorable embodiment, the electrical equipment is controlled by electronic cards transmitting data and receiving commands from the "GTC server", the electronic cards being of type accepting input serial data, and exchanging data with the GTC server on a network operating according to an IP (Internet Protocol) protocol. The system advantageously comprises one or more means 25 for obtaining indoor temperature and / or outside a given building, these means providing data to the GTC server. The invention aims, in a second aspect, at a process for consulting consumptions of electrical equipment, said method using a remote control system as explained above, comprising the following steps: 100: connection to the remote control service , and verification of access rights, 200: display of a home page of the service, and choice of an access mode: 200a: selection by type of consumption (for example air conditioning) or 200b: geographical selection, this selection being made on a tree of successive plans more and more detailed, 300a: in the case of a selection by type of consumption 200a, display of a consumption page of the selected type of equipment, 300b: in the case of selection by geographical area 200b, display of a consumption page of the selected place, for example in the form of bar graph, 400: selection of a period (year / month / week / day), 500: display of a consumption page for the selected period, and return to the service home page (step 200).

Advantageously, in step 200b a graphical user interface is displayed on the web client screen, one of the pages of this graphical user interface showing the building plan, various icons on the monitored electrical equipment, the designation by the user of an icon for accessing more specific data of electrical equipment, or of a building area. In step 300a or 300b, the user can, in a particular mode of implementation, compare the electrical consumption recorded with indoor or outdoor temperature data of the building.

The invention aims in yet another aspect a method of controlling electrical equipment, said method using a remote control system as described, comprising the following steps: 1100: connection to the remote control service, and verification of access rights, 1200: display of a home page of the service, and choice of an access mode: simple user or administrator of the electrical equipment of the building, 1200a: in the case of a simple user, display of a page dedicated to this user, adapted to his access rights and graphically proposing buttons or sliders of settings, 1300a: modification of a setting defined for the user (position of blinds, temperature, luminaries ... ), 1400a: real-time modification of the state of the equipment, through a command sent by the web server to the GTC server, and from there to the electronic cards controlling the electrical equipment concerned, 1500a: return to the user home page (step 1200a). 1200b: in the case of an electrical equipment administrator, display of an administration page of the controllable electrical equipment of the building. 1300b: selection by the administrator of an electrical equipment, 1400b: display of an administration page of said equipment, 1500b: remote control of the equipment, 1600b: modification of a setting defined for the user (position blinds, temperature, lighting ...), 1700b: return to the user home page (step 1200b).

Preferably, in step 1200a or 1200b, a graphical user interface is displayed on the web client screen, one of the pages of this graphical user interface showing the building plan, various icons on electrical equipment in this respect. monitored, the designation by the user of an icon to access more specific data of an electrical equipment, or a building area.

In the case of air-conditioning equipment, in step 1400a or 1600b, operating mode, ambient temperature, temperature and consumption information of the air conditioners are displayed over a period of time and allows the control of the operating mode, and setting the temperature setpoint. In the case of lighting equipment, in step 1400a or 1600b, the state of each luminaire, the consumption measured over a given period and the control of the state change are displayed in real time.

In the case of windows with controlled opening, in step 1400a or 1600b, the state of said windows, the change control of this state, and a status display of an associated motorized blind are displayed if it exists.

According to a particular implementation, the method comprises a step of following predefined setpoints, said monitoring requiring the execution of an iterative calculation loop on the consumption or sensor data, and automatic control of certain electrical equipment according to the results of these instructions In this case, instructions for consumption strategies are pre-stored in the web server, or calculated by the web client or by the GTC server.

DESCRIPTION OF THE FIGURES An exemplary embodiment of the method according to the invention will now be described with reference to the appended drawings in which: FIG. 1 represents the general architecture of the remote equipment control system, FIG. 2 represents a flowchart 3 is a process flowchart for the individual control part of the equipment.

DETAILED DESCRIPTION OF ONE EMBODIMENT OF THE INVENTION The invention finds its place in the remote control of electrical equipment 5 installed in at least one building 6. Electrical equipment 5 means systems such as motorized blinds, air conditioning , lighting, etc. It is assumed that these electrical equipment 5 are controlled by electronic cards 7. The electrical equipment 5 and associated electronic control cards 7 are of a type known per se and come out as such that frame of the invention. They are therefore not described further here. In particular, the data exchanges between the electrical equipment 5 and the electronic cards 7 can be wired or not, depending on the types of equipment used. In the present invention, these electronic cards 7 send data and receive commands from a central controller called "GTC server" 4, responsible for the centralized technical management of the building 6. This GTC server 4 is a computer file server type known in itself. It comprises in particular data storage means received from the various electrical equipment 5 of the building 6.

In an advantageous embodiment, the building 6 is also provided with one or more indoor and / or outdoor temperature sensors (not shown in the figures). These sensors also provide data to the GTC server 4. The GTC server 4 thus collects the essential operating parameters of the building 6. - Energy management: modes of operation of the heat pumps according to the occupation of the premises, measurements of interior temperatures, heating-cooling consumption, ventilation and lighting consumption, control of fresh air flows and volumes ... - anomaly management: fire detection, presence sensors ... - Management of electrical defects related to equipment, lifts ...

As seen in FIG. 1, a remote equipment control system, described here in a non-limiting example, comprises in the first place a so-called "web client" computer 1, for example of a personal microcomputer type, known in itself, provided with means for remote connection to a network 2, here assumed Internet type. In an advantageous embodiment, the web client 1 is a tablet PC type with a touch screen.

The remote equipment control system furthermore comprises a file server, called a "web server" 3, comprising means enabling it to receive queries from a web client 1 and to send it a reply, for example in a format internet page in html code or equivalent. This web server 3 possibly consists of several physical servers, depending on the volume of data it must process. The remote equipment control system also comprises, at the level of each building 6, means for transferring data, via a firewall, to the web server 3, via the network 2 (of the internet type in the present example ). In a preferred embodiment, the electronic cards 7 controlling the electrical equipment 5 are of type accepting input serial data, and exchanging data with the GTC 4 server on a network 8 operating according to an IP protocol (Internet Protocol). The server GTC 4 includes a software for transferring data to the web server 3. It sends it at regular intervals, for example hourly, consumption data of all equipment 5. These consumption data are stored in a database hosted in the web server 3. In the present non-limiting example, this database uses a SQL (Structured Query Language) language. The web server 3 possibly receives data from various buildings 6.

Operating mode consultation of consumption data In a first set of functionalities, the remote equipment control system enables a user through the web client 1, to consult the electrical consumption of a building 6. It allows, for example 6. That is to say that a given user can only access data concerning one or more electrical equipment 5 of one or more buildings 6, for which he has access to access authorization, managed in a manner known per se.

In the remote control system described here by way of example, the user has, on his web client computer 1, a graphical user interface, one of the pages of which shows the plan of the building. this plan, various icons include the electrical equipment 5 monitored. In the case of a touch interface of the web client 1, the tactile designation of an icon makes it possible to access more specific data of an electrical equipment item 5, or a zone of the building 6. The data consulted can be sorted according to various criteria, for example by zone of the building 6. They may be of a one-off or cumulative nature per period of time: consumption in kWh / year (or per month, week, day, etc.). Similarly, these data can be presented as consumption per unit area of the study area of the building: kWh / m2 / year (or other unit of time or area).

The data consulted being stored in a database, can be grouped by type of electrical equipment 5, equipment, room, area, floor, complete building, or by any other criterion, for example consumption greater than a predetermined threshold. In the same way, the user can compare the electricity consumption recorded with indoor or outdoor temperature data of the building 6. External temperature data of the building can also be retrieved by remote access on a meteorological server. All the information consulted by the user can be exported in the form of data files of predetermined type for later analysis according to the needs of the user.

More precisely, as can be seen in FIG. 2, the method for consulting consumptions using the remote control system comprises the following steps: 100: connection to the remote control service, and verification of access rights, 200: displaying a home page of the service, and choosing an access mode: 200a selection by type of consumption (for example air conditioning) or 200b geographical selection, this selection being made on a tree of plans successive more and more detailed, 300a: in the case of a selection by type of consumption 200a, display of a consumption page of the selected type of equipment, 300b: in the case of selection by geographical area 200b, display d a page of the consumptions of the selected place, for example in the form of bar graph, 400: selection of a period (year / month / week / day), 500: display of a page of the consumptions for the selected period, and return to the service home page (step 200).

2 / Personalized Individual Equipment Control In a second set of features, the remote equipment control system allows a user, through the web client 1, to control each electrical equipment 5 or group of equipment. In this second mode of operation, a graphical navigation interface is accessible to the user on the web client 1. This navigation interface is customizable by the user. The navigation interface presents geo-localized data in the building 6, so as to provide an intuitive control interface of the electrical equipment 5. Each electrical equipment 5 can be controlled, whether on / off, in power level , or other mode. More specifically, with regard to the various types of electrical equipment 5, the remote control system allows the following functionalities: With regard to air-conditioning equipment, the system makes it possible to display operating mode information, room temperature, temperature and consumption of air conditioners over a period of time. The system also allows the control of the operating mode, and the setting of the temperature setpoint. With regard to lighting, the remote control system allows the display of status of each luminaire, the consumption measured over a given period of time and the control of change of state. In the case of windows with controlled opening, the system also allows the display of their state, the change control of this state, and a status display of an associated motorized blind if it exists.

The navigation interface makes it possible to display all or part of the electrical equipment 5 of a zone, according to the user's choice, for example by using differentiated color codes.

Higher level instructions, requiring the execution of an iterative calculation loop on the consumption data, can also be defined, for example by defining periods of low use of the building 6 or particular areas of the building, during which specific indoor temperature criteria are applicable.

It is then conceivable, for example, that the system calculates which combination of positions of air conditioning equipment and blinds minimizes the power consumption to comply with a given instruction. Similarly, a target of minimum temperature at a given time, for example eight o'clock in the morning, can be defined, the system then determining the best equipment control strategy to achieve this objective by minimizing consumption or another criterion ( for example in the case of variable cost of energy depending on the periods of the day or the year). Such consumption strategies may be pre-stored in the web server 3, or calculated by the web client 1 or the GTC server 4. In this second set of features, data export is also possible.

More precisely, as seen in FIG. 3, the control method of the electrical equipment 5 using the remote control system comprises the following steps: 1100: connection to the remote control service, and verification of access rights , 1200: display of a service home page, and choice of an access mode: simple user (that is to say with restricted rights of modifications to certain equipment and certain types of settings) , or administrator of the electrical equipment 5 of the building 6 (that is to say with the widest consultation and modification rights), 1200a: in the case of a simple user, display of a page dedicated to this user , adapted to its access rights and graphically proposing buttons or sliders of settings, 1300a: modification of a setting defined for the user (position of the blinds, temperature, luminaries ...), 1400a: modification in time real d e the state of the equipment, through a command sent by the web server 3 to the GTC server 4, and from there to the electronic cards 7 controlling the electrical equipment 5 referred to, 1500a: return to the page d user home (step 1200a).

1200b: in the case of an electrical equipment administrator 5, display of an administration page of the controllable electrical equipment of the building 6. 1300b: selection by the administrator of an electrical equipment 5, 1400b: display of a administration page of said equipment 5, 1500b: remote control of the equipment 5, 1600b: modification of a setting defined for the user (position of the blinds, temperature, luminaires ...), 1700b: back to the page user home (step 1200b).

Embodiments The scope of the present invention is not limited to the details of the above embodiments considered by way of example, but extends instead to modifications within the scope of those skilled in the art.

Claims (15)

REVENDICATIONS1. Remote control system for electrical equipment (5) of at least one building (6), said building being provided with a set of electrical equipment (5) controlled by a centralized technical management type server GTC (4) , the remote control system comprising: at least one file server called "web server" (3), adapted to receive and send information to and from the GTC centralized technical management server (4), said web server (3) hosting a database representative of the operation of the electrical equipment (5), - at least one remote computer called "web client" (1), adapted to receive data and to issue commands to the web server (3) through a communications network (2), - said web server (3) hosting a data page service software in response to requests from a web client (1), said software allowing both 1 / a visualization representative data of electrical consumption of one or more electrical equipment (5) predetermined, over a predetermined period, and 2 / a control of at least some of these electrical equipment (5), - said web server (3) being adapted to reissue in real time control commands for electrical equipment (5) received from a web client (1) to the GTC server (4) corresponding to the building (6) housing said electrical equipment (5). 2. System according to claim 1, characterized in that the database representative of the operation of the electrical equipment (5) is created by copying at regular intervals data stored in the centralized management server GTC (4). 3. System according to one of claims 1 to 2, characterized in that the "web server" (3), is adapted to receive and send information from and to the centralized technical management server type GTC (4), to through intrusion protection means (9) and a communications network (2) using an internet type data transfer protocol, each "web client" (1) being adapted to receive data and issue commands to the web server (3) through a communications network (2) similarly using an internet data transfer protocol. 4. System according to one of claims 1 to 3, characterized in that the electrical equipment (5) are controlled by electronic cards (7) transmitting data and receiving commands from the "GTC server" (4), the cards electronic devices (7) being of the type accepting input serial data, and exchanging data with the GTC server (4) on a network (8) operating according to an IP (Internet Protocol). 5. System according to one of claims 1 to 3, characterized in that it comprises one or more means for obtaining indoor temperature and / or external to a given building (6), these means providing data to the GTC server (4). 6. A method of consulting consumptions of electrical equipment (5), said method using a remote control system according to one of claims 1 to 5, characterized in that it comprises the following steps: 100: connection to the service remote control, and verification of access rights, 200: display of a home page of the service, and choice of an access mode: 200a: selection by type of consumption (for example packaging of air) or 200b: geographical selection, this selection being made on a tree of successive plans more and more detailed, 30 300a: in the case of a selection by type of consumption 200a, display of a page of the consumption of the type d selected equipment, 300b: in the case of selection by geographical area 200b, display of a consumption page of the selected place, for example in the form of a bar graph, 400: selection of a period (year / month / week) ine / day), 500: display of a consumption page for the selected period, and return to the service home page (step 200). Method according to claim 6, characterized in that, in step 200b, a graphical user interface is displayed on the web client screen (1), one of the pages of this graphical interface showing the building plan (6), various icons included in this plan the electrical equipment (5) monitored, the designation by the user of an icon for accessing more specific data of an electrical equipment (5), or a building area (6). 8. Method according to one of claims 6 to 7, characterized in that, in step 300a or 300b, the user can compare the electrical consumption recorded with indoor or outdoor temperature data of the building (6). 9. A method of controlling electrical equipment (5), said method 20 using a remote control system according to one of claims 1 to 5, characterized in that it comprises the following steps: 1100: connection to the service of remote control, and verification of access rights, 1200: display of a home page of the service, and choice of an access mode: simple user or administrator of the electrical equipment (5) of the building (6 ), 1200a: in the case of a simple user, display of a page dedicated to this user, adapted to his access rights and graphically proposing buttons or sliders of settings, 1300a: modification of a defined setting for the user (position of blinds, temperature, luminaires ...), 1400a: real-time modification of the state of the equipment, through a command placed by the web server (3) to the GTC server (4 ), and beyond, to the electronic cards (7) controlling the electrical equipment (5) referred to, 1500a: return to the user home page (step 1200a). 1200b: in the case of an electrical equipment administrator (5), display of an administration page of the controllable electrical equipment of the building (6). 1300b: selection by the administrator of an electrical equipment (5), 1400b: display of an administration page of said equipment (5), 1500b: remote control of the equipment (5), 1600b: modification of a setting defined for the user (blind position, temperature, luminaires ...), 1700b: return to the user home page (step 1200b). 10. Method according to claim 9, characterized in that, in step 1200a or 1200b, a graphical user interface is displayed on the web client screen (1), one of the pages of this graphical interface appearing the plane of the building (6), various icons in this plane the electrical equipment (5) monitored, the designation by the user of an icon for accessing more specific data of an electrical equipment (5), or an area of the building (6). 11. Method according to one of claims 9 to 10, characterized in that, in the case of air conditioning equipment, in step 1400a or 1600b, information is displayed operating mode, ambient temperature, temperature and consumption of the air conditioners over a period of time and allows the control of the operating mode, and the setting of the temperature setpoint. 12. Method according to one of claims 9 to 11, characterized in that, in the case of lighting equipment, in step 1400a or 1600b, the state of each luminaire is displayed in real time, the consumption measured over a given period and control of state change. 13. Method according to one of claims 9 to 12, characterized in that, in the case of windows with controlled opening, in step 1400a or 1600b, the state of said windows is displayed, the change control of this state, and a status display of an associated motorized blind if it exists. 14. Method according to any one of claims 9 to 13, characterized in that it comprises a predefined setpoint tracking step, said monitoring requiring the execution of an iterative calculation loop on the consumption data or sensors , and automatic piloting of certain electrical equipment (5) according to the results of these instructions 15. The method as claimed in claim 14, characterized in that consumption strategy instructions are pre-stored in the web server (3), or calculated by the web client (1) or by the GTC server (4).