KR20120045128A - Method for auto control of lamp in building and system - Google Patents

Abstract

PURPOSE: A method and a system for automatically controlling building illumination are provided to accurately control illumination according to the moving path of a user by widely setting the controlling range of an illumination switch. CONSTITUTION: An identification(ID) recognizing unit(10) recognizes the ID of a user. Identification recognizing units are installed at entrances. The ID recognizing unit recognizes the ID of the user who enters the entrance. A building managing server(30) manages facilities such as illumination lamps, electronic devices, and network. A light illumination switch(50) implements a switching function for controlling the illumination of the building. Communication network(40) secures a path for transmitting and receiving data between ID recognizing unit, the light illumination switch, and the building managing server.

Description

Method for auto control of lamp in building and system

The present invention relates to a method and system for automatically controlling lighting, and more particularly, to identify a user, determine whether a building is in or out of a building, search for a lighting list according to the identified user's movement path, and control a plurality of lights. An automatic lighting control method and system.

Recently, the technology that detects the ambient brightness by various sensors and automatically controls the indoor lighting does not control only the window lighting inside the building despite the brightness of the external light entering through the window, or cope with failure or failure of the lighting controller. It is impossible, and because only a manual switch flashes separately or the entire lighting, not only waste of electrical energy but also shorten the life of the lighting, and often cause inconvenience in use.

The installation and operation method of the automatic lighting control equipment of the building is turned on or off by the central control by the collective relay for each group of the lighting circuits installed on each floor, and according to the schedule automatic control system (CCMS) Pattern control is performed automatically. In addition, the lighting control switch of each floor is connected to the lighting relay panel in a wired structure that can be turned on or off the lighting circuit pre-mapped with each switch in the field.

 As a result, the lights in the current building are turned on and off according to a predetermined schedule regardless of the presence of a person. Therefore, there is a waste of energy consumed by the lighting in the empty space. Due to the large quantity, it is difficult to locate the switch, and some of the lights are not turned off, causing serious energy waste.

In order to solve such a conventional problem, an object of the present invention is to grasp the movement path of the insider of the building to light up the lights in part, and when the occupants arrive at the final destination, the building lights that can turn off the lights outside the final destination point To provide an automatic control method and system.

In addition, another object of the present invention is to provide a building lighting automatic control method and system that can accurately control the lighting according to the user's movement path by setting a wide range of control in the light switch of each floor.

In addition, another object of the present invention is to allow the user to set the lighting list directly to the Internet when the movement of the user in the building occurs, thereby minimizing the burden on the administrator and limit the number of lights included in the lighting list to a wide range of lighting An object of the present invention is to provide a method and system for automatically controlling lighting of a building to control lighting.

Building lighting automatic control system of the present invention for achieving the object as described above is installed in the access point, to determine whether one or more ID recognizer and ID to recognize the entrance and exit ID in the building, entering the building In the case of searching for a lighting list by checking a movement route associated with the ID, lighting a plurality of lights included in the searched lighting list, and detecting whether the arrival according to the movement route is detected by a sensor of an arrival place. It is characterized in that it comprises a building management server to turn off the remaining lights except for the lighting of the arrival place.

The building management server according to the present invention identifies at least one ID, the access management unit for managing the access of the user corresponding to the identified ID, and check the ID to determine whether to enter the building, if entering the building, Search the lighting list by checking the movement route related to the ID, instruct the lighting of a plurality of lights included in the searched lighting list, and detect the arrival or absence according to the movement route through the sensor of the arrival place. Characterized in that the building control unit for indicating the extinguishing of the remaining lights other than the lighting of the arrival place and the lighting control unit to check the lighting list according to the on or off instructions of the building control unit, and operates a plurality of lights included in the lighting list do.

In addition, the building management server according to the present invention collects information on the ID recognized through at least one recognition means of the RF card recognition, fingerprint recognition, iris recognition and number recognition using the keypad, and access information collection to transmit to the access management unit It further comprises a wealth.

In addition, in the building management server according to the present invention, the building control unit checks the arrival place through the ID, characterized in that for analyzing the movement route to reach the confirmed arrival place.

In addition, in the building management server according to the present invention, if the building control unit detects the ID identified in the access control unit and is detected as leaving the building, the lighting list is searched according to the movement path associated with the identified ID, and the searched lighting list is searched. It is determined whether there is a light that is overlapped with at least one other ID among the included lights, and when there is a duplicate light, the remaining lights except for the duplicated lights in the lighting list are turned off.

In addition, in the building management server according to the present invention, the building control unit is characterized in that all lights included in the lighting list, if there is no overlapping lights.

In addition, in the building management server according to the present invention, if the building control unit checks the ID identified by the access control unit and arrives at the arrival place, the presence of the light that is lit in association with another ID among the lights that are lit according to the movement route. It is determined whether or not, and if there is an associated light, it is characterized in that the other lights except the associated light is turned off.

In addition, in the building management server according to the present invention, when there is no associated lighting, the building control unit is characterized in that extinguishing the remaining lights except for the light of the arrival place among the lit lights.

In addition, in the building management server according to the present invention, the building control unit checks each arrival place for the plurality of IDs, searches the lighting list for the plurality of lights associated with the movement route, and matches the searched lighting list with the ID. It is characterized by registering by.

In addition, in the building management server according to the present invention, the building control unit determines whether the setting of the lighting list is requested from the user, and if the setting of the lighting list is requested, executes the setting mode for the lighting list, Set the lighting list for the lights of the, check whether the number of lights included in the set lighting list exceeds the preset number of lights, if the number of lights does not exceed the preset number of lights, characterized in that the setting of the lighting list is completed do.

In addition, in the building management server according to the present invention, the building control unit is characterized in that, if the number of lights in the lighting list exceeds the preset number of lights, a warning message.

In addition, in the building management server according to the present invention, the building control unit calculates the numerical value of the number of occupants in the building through the confirmed ID, stores the calculated numerical value, and requests the display of the numerical value, the corresponding numerical value It is characterized by presenting.

In addition, in the building management server according to the present invention, the building control unit calculates power consumption for each light, stores the use value for the calculated power consumption for each floor in real time, and displays an indication of the use value. If requested, it is characterized by presenting a corresponding use value.

Building lighting automatic control method according to the present invention comprises the steps of the building management server to check at least one ID, the building management server to determine whether the entrance into the building for the ID, building management server when entering the building, Checking the movement route associated with the ID to search for the lighting list, the building management server lighting the plurality of lights included in the searched lighting list, and the building management server according to the movement route through the sensor at the arrival place. The step of detecting whether the arrival and the arrival place, characterized in that it comprises the step of extinguishing the remaining lights other than the lighting of the arrival place of the plurality of lights that the building management server is lit.

In addition, in the automatic building lighting control method according to the present invention, the step of checking the ID of the building management server and the lighting of the user's name, office location, movement path corresponding to the ID recognized by the building management server And searching for information on the list, entrance time, and departure time.

In addition, in the automatic building lighting control method according to the present invention, the step of checking the building management server confirms the arrival place through the ID and the building management server analyzing the movement route for reaching the confirmed arrival place Characterized in that it comprises a.

In addition, in the automatic building lighting control method according to the present invention, the step of confirming is characterized in that the ID is recognized through at least one recognition means of the RF card recognition, fingerprint recognition, iris recognition and number recognition using the keypad.

In addition, in the automatic building lighting control method according to the present invention, in the determining step, if it is detected to leave the building by checking the identified ID, the building management server searches for the lighting list according to the movement path associated with the confirmed ID. And, the building management server determines whether there is a lighting that is duplicated in at least one other ID among the lights included in the searched lighting list, and if there is a duplicate lighting, the building management server is duplicated in the lighting list It is characterized in that it further comprises the step of turning off the remaining lights other than the lights.

In addition, in the automatic building lighting control method according to the present invention, the determining may further include, by the building management server, turning off all the lights included in the lighting list when the overlapping lighting does not exist. It features.

In addition, in the automatic building lighting control method according to the present invention, the lighting list is characterized in that it includes information on the lighting located in at least one of the entrance door, elevator, stairs, corridors of each floor and the arrival place of the building. .

In addition, in the automatic building lighting control method according to the present invention, if the step of extinguishing checks the identified ID and arrives at the arrival place, the building management server lights in association with another ID among the lights that are lit according to the movement route. Determining whether there is a predetermined light and if there is an associated light, characterized in that the building management server comprises the step of turning off the remaining lights other than the associated light.

In addition, in the automatic building lighting control method according to the present invention, the step of extinguishing is characterized in that the building management server extinguishes the remaining lights except for the light of the arrival place among the lights that are turned on.

In addition, in the automatic building lighting control method according to the present invention, prior to the checking step, the building management server confirms each arrival place for a plurality of IDs, and the building management server is a plurality of lights associated with the movement route Searching for the lighting list for the building management server and matching the searched lighting list and ID, characterized in that it further comprises the step of registering.

In the automatic building lighting control method according to the present invention, after the step of extinguishing, the building management server determines whether the setting of the lighting list is requested from the user, and if the setting of the lighting list is requested, the building management server Executing the setting mode for the lighting list; setting the lighting list for the plurality of lights in the setting mode by the building management server; and the number of the plurality of lights included in the lighting list in which the building management server is set; The step of checking whether the excess and the number of lights does not exceed the preset number of lights, characterized in that the building management server further comprises the step of completing the setting of the lighting list.

In addition, in the automatic building lighting control method according to the present invention, the checking may include a step in which the building management server presents a warning message when the number of lights in the lighting list exceeds a preset number of lights.

In the automatic building lighting control method according to the present invention, after the determining step, the building management server calculates the numerical value of the number of occupants in the building through the confirmed ID, and stores the calculated value by the building management server. And if the building management server requests the display for the numerical value, it characterized in that it further comprises the step of presenting the corresponding numerical value.

In the automatic building lighting control method according to the present invention, after the extinguishing step, the building management server calculates power consumption for each light, and the building management server calculates a value for use of the calculated power consumption. It is characterized by further comprising the step of storing by dividing by floor and in real time, and if the building management server requests the display of the usage value, presenting the corresponding usage value.

According to the present invention, the lighting is partially turned on according to the movement route of the indoor personnel in the building, and when the occupant arrives at the final destination, the light outside the arrival place can be turned off, thereby saving energy.

In addition, according to the present invention, it is possible to reduce the energy waste and the cost of replacing the lights generated by turning on and off regardless of the number of indoor occupants.

In addition, according to the present invention, it is possible to additionally grasp the numerical value of the number of occupants in the building in real time, it is possible to provide information on the lighting energy consumption for each floor and zone in real time to induce the residents to voluntarily save energy.

1 is a view showing an automatic building lighting control system according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a building management server according to an embodiment of the present invention.
3 is a data flowchart illustrating a method for automatically controlling building lighting according to an exemplary embodiment of the present invention.
4 and 5 are flowcharts illustrating a method for automatically controlling building lighting according to an exemplary embodiment of the present invention.
6 is a flowchart illustrating an automatic lighting control method when a user moves according to an exemplary embodiment of the present invention.
7 is a diagram illustrating accessor data according to an exemplary embodiment of the present invention.
8 is a diagram illustrating lighting circuit data according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description and the accompanying drawings, detailed descriptions of well-known functions or configurations that may obscure the subject matter of the present invention will be omitted. In addition, it should be noted that like elements are denoted by the same reference numerals as much as possible throughout the drawings.

The terms or words used in the specification and claims described below should not be construed as being limited to the ordinary or dictionary meanings, and the inventors are appropriate to the concept of terms in order to explain their invention in the best way. It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, and various alternatives may be substituted at the time of the present application. It should be understood that there may be equivalents and variations.

1 is a view showing an automatic building lighting control system according to an embodiment of the present invention.

Referring to Figure 1, the building lighting automatic control system according to an embodiment of the present invention (hereinafter, automatic lighting control system, 100) is the ID recognition object 10, ID recognizer 20, building management server 30, lighting It consists of a switch 50 and the communication network 40.

The communication network 40 functions to provide a passage for transmitting and receiving data between the ID recognizer 20, the light switch 50, and the building management server 30 in the automatic lighting control system 100. Here, the communication network 40 performs a series of data transmission and reception operations for data transmission and information exchange between the ID recognizer 20, the light switch 50 and the building management server 30. The communication network 40 performing such a function is an IP network that provides a data transmission / reception service and a data service without disconnection through Internet protocol (IP), and an IP network structure integrating different networks based on IP. It may be an All IP network. In addition, the communication network 40 may be one of a wireless LAN including a mobile communication network, a wireless broadband (Wibro) network, a high speed downlink packet access (HSDPA) network, a satellite communication network, and a Wi-Fi network. In addition, the communication network 40 is connected to the cable via a wired communication network to provide data transmission and reception between the ID recognizer 20, the light switch 50 and the building management server (30).

The ID recognizer 10 is a means for identifying the user's ID, and may be an object possessed by the user or one of body parts. That is, the ID recognition object 10 may be an object, a body part, or information that can identify a user, such as an RF card, a fingerprint, an iris, and a number using a keypad. In addition, the ID recognition object 10 according to an embodiment of the present invention is not limited to the information presented for identifying the ID, and may include all of various objects and body parts.

A plurality of ID recognizer 20 is installed in each access place, and recognizes the ID of the user entering and leaving. At this time, the ID recognizer 20 recognizes the ID recognition object 10 and executes a function of identifying a user entering and leaving the building. Here, the ID recognizer 20 may recognize the user ID through recognition means such as RF card recognition, fingerprint recognition, iris recognition and number recognition using a keypad. The ID recognizer 20 transmits data on the recognized user ID to the building management server 30. At this time, the ID recognizer 20 may be installed one or a plurality of each building, in particular, transmits the user ID recognized for each access point to the building management server (30).

The building management server 30 manages all facilities such as lighting, electronic devices, and networks in the building. In particular, the building management server 30 according to the present invention checks the ID to determine whether the entrance into the building, and when entering the building, by checking the movement path for the identified ID to search the lighting list, the searched lighting list Lights up a plurality of lights included in, and detects the arrival of the arrival place according to the movement route. That is, the building management server 30 may determine whether the user arrives at the arrival place by turning on the power of the personal computer or by detecting whether the user is detected by the sensor of the arrival place. When the user arrives at the arrival place, the building management server 30 turns off the remaining lights except for the illumination of the arrival place among the plurality of lit lights. Here, the lighting list includes information on lighting located at a place such as a front door of a building, an elevator, a staircase, a corridor of each floor, and an arrival place.

Building management server 30 recognizes the ID, and retrieves information about the office location and name of the user corresponding to the recognized ID.

The building management server 30 checks the arrival place to be moved by the user through the ID, and analyzes the movement route for reaching the confirmed arrival place.

When the building management server 30 detects the identified ID and detects the exit from the building, the building management server 30 searches for the lighting list associated with the confirmed ID, and whether there is a light that is lit in association with another ID among the lights included in the searched lighting list. Judge. At this time, the building management server 30 turns off the remaining lights except for the duplicated lights among the lit lights, if there are duplicate lights. On the other hand, if there is no overlapping lighting, all lights are turned off according to the user's movement path.

When the building management server 30 detects the identified ID and arrives at the arrival place, the building management server 30 determines whether there is a lit light associated with another ID among the remaining lights except the light of the arrival place. At this time, the building management server 30, if there is an associated light, the lights off other than the associated light. On the other hand, if there is no associated lighting, the building management server 30 turns off the remaining lights among the lit lights.

The building management server 30 checks each arrival place for the plurality of IDs, searches the lighting list for the plurality of lights related to the movement route by ID, and registers the searched lighting list with the ID.

The building management server 30 determines whether the setting of the lighting list is requested from the user, and when the setting of the lighting list is requested, executes the setting mode for the lighting list, and sets the lighting list for the plurality of lights in the setting mode. When the number of lights included in the set lighting list exceeds the preset number of lights, and if the number of lights does not exceed the preset number of lights, the setting of the lighting list is completed. In this case, the building management server 30 presents a warning message when the number of lights in the lighting list exceeds a preset number of lights.

The building management server 30 calculates the numerical value of the number of occupants in the building through access control, stores the calculated numerical value, and presents a corresponding numerical value when requesting display of the numerical value.

The building management server 30 calculates power consumption for each light, stores the used value for the calculated power consumption for each floor in real time, and requests the display of the used value. To present.

The lighting switch 50 is provided in each building, and serves as a switching function for lighting control of each building. Here, the light switch 50 performs a function of turning on or off the lighting according to the control signal received from the building management server (30). That is, the light switch 50 may turn on or off the light associated with the location and movement path of the office for the ID recognized through the ID recognizer 20 of the plurality of lights.

2 is a block diagram showing the configuration of a building management server according to an embodiment of the present invention.

2, the building management server 30 according to an embodiment of the present invention is a building control unit 31, access control unit 32, access information collection unit 33, accessor DB 34, lighting management unit 35 ), The lighting circuit DB 36 and the user lighting setting unit 37 is configured.

The access control unit 32 performs overall management on entering or leaving the building of the user. Here, the access control unit 32 checks the ID transmitted from the access information collecting unit 33, and retrieves and extracts the information corresponding to the confirmed ID from the accessor DB 34. In addition, the access control unit 32 may manage the entrance or exit based on the current state of the user. For example, when the ID is recognized in the entrance state, it may be determined as the exit state, and when the ID is recognized in the exit state, it may be determined as the entrance state.

The accessor DB 34 stores information about an office location and a movement route for a tenant in a building.

The access information collecting unit 33 collects information on the ID recognized through the ID recognizer 20 and delivers the information to the access managing unit 32. Here, the access information collection unit 33 may further collect data such as ID, office location, etc. for the newly registered user and transmit the data to the access management unit 32.

The lighting management unit 35 functions to manage all the lights in the building at the request of the building control unit 31. More specifically, the lighting manager 35 searches for the lighting circuit DB 36 in which the positions of the lights of each floor in the building are stored, and transmits data for controlling the lighting to the corresponding lighting switch 50. Can be.

The building control unit 31 performs an overall operation for automatically controlling the lighting in the building. That is, the building control unit 31 manages all facilities such as lighting, electronic devices, and networks in the building. In particular, the building control unit 31 according to the present invention checks the user's entry into the building corresponding to the recognized ID, and when entering the building, checks the movement path of the user corresponding to the confirmed ID to the lighting list It searches and instructs lighting of a plurality of lights included in the searched lighting list. Here, the lighting list includes information on lighting located at a place such as a front door of a building, an elevator, a staircase, a corridor of each floor, and an arrival place.

To this end, the building control unit 31 searches for information about the office location and name of the user corresponding to the recognized ID.

The building control unit 31 confirms the arrival place through the searched information and analyzes the movement route for reaching the confirmed arrival place.

When the building control unit 31 detects the identified ID and exits the building, the building control unit 31 searches for an illumination list associated with the movement path of the identified ID, and among the lights included in the searched illumination list, Determine if it exists. At this time, if there is overlapping lighting, the building control unit 31 turns off the remaining lighting except for the overlapping lighting among the lit lighting. On the other hand, if there is no overlapping lighting, all lights are turned off according to the user's movement path.

When the building control unit 31 detects the identified ID and arrives at the arrival place, the building control unit 31 determines whether there is a lit light associated with another ID among the remaining lights except the light of the arrival place among the lit lights. At this time, if there is associated lighting, the building control unit 31 turns off the remaining lights except for the associated lights. On the other hand, if there is no associated lighting, the building control unit 31 turns off the remaining lights among the lit lights.

The building control unit 31 checks each arrival place for the plurality of IDs, searches the lighting list for the plurality of lights related to the movement route, and matches the registered lighting list with the ID to register.

The building control unit 31 determines whether the setting of the lighting list is requested from the user, and when the setting of the lighting list is requested, executes the setting mode for the lighting list, sets the lighting list for the plurality of lights in the setting mode, and If the number of lights included in the set lighting list exceeds the preset number of lights, and if the number of lights does not exceed the preset number of lights, the setting of the lighting list is completed. In this case, the building control unit 31 presents a warning message when the number of lights in the lighting list exceeds a preset number of lights.

The building control unit 31 calculates the numerical value of the number of occupants in the building through the confirmed ID, stores the calculated numerical value, and presents a corresponding numerical value when requesting display of the numerical value.

The building control unit 31 calculates power consumption for each light, stores the used value of the calculated power consumption for each floor in real time, and requests the display of the used value. present.

The user lighting setting unit 37 sets the lighting list corresponding to the movement path according to the user's request. To this end, the user lighting setting unit 37 displays a setting screen for setting the lighting list. In this case, the user lighting setting unit 37 may execute a function according to the control of the building control unit 31.

As such, the building management server 30 according to an exemplary embodiment of the present invention may automatically control lighting by storing data such as a lighting list and a lighting circuit corresponding to a user ID of a building and a moving path associated with the user ID.

3 is a data flowchart illustrating a method for automatically controlling building lighting according to an exemplary embodiment of the present invention.

Referring to FIG. 3, in the data flow for the method for automatically controlling lighting in a building according to an embodiment of the present disclosure, first, the ID recognizer 20 recognizes an ID at step S11. Here, the ID recognizer 20 may recognize the ID through recognition means such as RF card recognition, fingerprint recognition, iris recognition and number recognition using a keypad. At this time, if the ID is recognized, the ID recognizer 20 transmits the information on the ID recognized in step S13 to the building management server (30).

When the information on the ID is received, the building management server 30 checks the ID in step S15. Here, the building management server 30 checks the ID by searching the accessor DB 34 in step S17, and checks whether the building in the building for the searched ID. At this time, the building management server 30 extracts the movement path of the user corresponding to the ID in step S19.

When the movement route is extracted, the building management server 30 may search the lighting list according to the movement route in step S21. Here, the lighting list includes a plurality of lights corresponding to the movement path of the user.

The building management server 30 transmits the lighting list associated with the ID to the lighting switch 50 in step S23 to request the control of the lighting. Here, the building management server 30 may query the lighting circuit DB 36 to determine the location of the lighting according to the movement path associated with the ID.

When the lighting list is received, the lighting switch 50 checks the lighting list in step S25, and lights the lighting according to the movement path included in the checked lighting list.

After a plurality of lights according to the movement path of the user is turned on, the building management server 30 checks whether the user has arrived at the arrival place in step S27. That is, the building management server 30 may determine whether the user arrives at the arrival place by turning on the power of the personal computer or by detecting whether the user is detected by the sensor of the arrival place. In this case, when the user arrives at the arrival place, the building management server 30 requests for extinguishing the remaining lights in the movement route except for the lighting at the arrival place in step S29.

When the lighting is turned off, the lighting switch 50 turns off the corresponding lighting in step S31.

Through this, the lighting is partially turned on according to the movement route of the indoor personnel in the building, and when the person arrives at the final destination, by turning off the lights outside the arrival point, energy can be saved and lit regardless of the number of indoor occupants. It can reduce energy waste and lighting replacement cost caused by extinguishing, and concomitantly identify the figures of the number of occupants in the building in real time, and provide information on lighting energy consumption by floor and zone in real time. Energy saving can be induced.

4 and 5 are flowcharts illustrating a method for automatically controlling building lighting according to an exemplary embodiment of the present invention.

4 and 5, in the building lighting automatic control method according to an embodiment of the present invention, the building management server 30 performs the standby mode in step S41. At this time, the building management server 30 checks the location of each office for the users in the building before the standby mode, retrieves the lighting list associated with the user's movement path, the lighting and the user included in the searched lighting list ID can be registered by matching.

In the standby mode, the building management server 30 determines whether a specific user ID is recognized in step S43. At this time, the building management server 30 may check the user information on the location and user name of the office corresponding to the user ID recognized in the process of recognizing the user ID in step S45. That is, the building management server 30 checks the information corresponding to the recognized ID, the location of the office, the lighting list for the movement route, the entrance time and the departure time.

Building management server 30 determines the entrance or exit of the building for the ID identified in step S47. As a result of determination, when the user of the user ID enters the building, the building management server 30 extracts the movement path of the user corresponding to the ID identified in step S49.

When the movement route is extracted, the building management server 30 searches for the lighting list according to the movement route in step S51. The building management server 30 may transmit a signal for lighting a plurality of lights included in the searched lighting list to the light switch 50.

On the other hand, as a result of determining whether the building is in or out of the confirmed user ID, when the user leaves the building, the building management server 30 extracts the movement path of the user corresponding to the identified ID in step S71. Thereafter, the building management server 30 searches for the lighting list according to the movement path in step S73.

The building management server 30 determines whether there is a light that is overlapped with another user ID among the lighting lists searched at step S75. At this time, when there is a duplicate lighting, the building management server 30 transmits a signal for extinguishing the remaining lights except for the duplicated lighting in the lighting list to the light switch 50 in step S77. On the other hand, if there is no overlapping lighting, the building management server 30 transmits a signal for turning off all the lights included in the lighting list to the light switch 50 in step S79.

In the state where the lighting in the user's movement path is turned on, the building management server 30 determines whether the user has arrived at the arrival place at step S55. That is, the building management server 30 may determine whether the user arrives at the arrival place by turning on the power of the personal computer or by detecting whether the user is detected by the sensor of the arrival place. In this case, when arriving at the arrival place, the building management server 30 determines whether there is a light that is overlapped with another ID among the lights that are lit in step S57. In this case, when there is a duplicated light, the building management server 30 maintains the overlapped light in step S59 and lights a signal for turning off the remaining lights except for the light of the arrival place among the remaining lights. 50). On the other hand, if there is no overlapping lighting, the building management server 30 to the light switch 50 to turn off the other lights except for the lighting of the arrival place of all the lights included in the lighting list in step S61 send.

6 is a flowchart illustrating an automatic lighting control method when a user moves according to an exemplary embodiment of the present invention.

Referring to FIG. 6, in the method of automatically controlling lighting when a user moves according to an embodiment of the present invention, first, the building management server 30 moves from a user corresponding to an ID while lighting a light associated with the ID identified in step S81. Determine whether lighting list setting is requested according to the path. Here, the user may directly access the building management server 30 through the Internet to reset the lighting list and transmit and receive corresponding data. That is, when a large number of occupants in the building move simultaneously or sequentially, if the lighting list management is performed in the building management server 30, the efficiency of the work is reduced and the overload may occur. It is preferable to reset manually.

If the setting of the lighting list is requested, the building management server 30 presents a setting screen for selecting a plurality of lights in step S83. In addition, the building management server 30 detects an input signal for selecting lighting in step S85. Thereafter, the building management server 30 may check the lighting list input from the user.

The building management server 30 checks whether the number of lights included in the lighting list exceeds the preset number of lights in step S67. Here, if the number of lights does not exceed the preset number, the building management server 30 completes the setting of the lighting list in step S89. In addition, the building management server 30 may turn on a light corresponding to the set lighting list. That is, the building management server 30 restricts the authority for resetting the lighting list because the user directly sets the lighting list according to the movement path of the user. Through this, the building management server 30 can control the lighting that is widely lit in the building.

On the other hand, if the number of lights exceeds a predetermined number, the building management server 30 presents a warning message in step S91, and presents a screen for resetting the lighting list. At this time, the warning message may be displayed a text indicating that the number of lights set in the illumination list exceeds the preset number.

In addition, the building management server 30 according to an embodiment of the present invention checks and calculates the numerical value for the number of occupants in the building through the user ID identified through the ID recognizer 20 to determine the current number of people in the building. Stored values can be stored and displayed.

In addition, the building management server 30 according to an embodiment of the present invention calculates the power consumption for each light, and stores and displays the power use value for the calculated power consumption for each floor in real time.

7 is a diagram illustrating accessor data according to an exemplary embodiment of the present invention.

Referring to FIG. 7, the accessor data stored in the accessor DB 34 of the building management server 30 according to an embodiment of the present invention may be an ID, an office location, a lighting list according to a moving route, an entrance time, a departure time, and the like. The data is saved. Here, each ID is data for identifying a user. The office location also represents information about the office in the building. In addition, the lighting list according to the movement path represents information on the lights included in the path from which the user reaches the front door to the office. In addition, the entrance time and departure time are information that can be updated from time to time when the user enters or leaves the building. For example, the lighting list according to the movement route is data on lighting that needs to be manipulated by the user of the ID 701 to move from the entrance of the building to the office, and is data for controlling the lighting when entering or leaving the building. At this time, the accessor DB 34 may store information about the occupants of each building.

8 is a diagram illustrating lighting circuit data according to an embodiment of the present invention.

Referring to FIG. 8, the lighting circuit DB 36 of the building management server 30 according to an exemplary embodiment of the present invention includes data on a lighting list of each floor according to a moving path of a user in a building. For example, if the location of the user's office is the D zone 814 on the fifth floor, the building management server 30 checks the user's ID and according to the movement route 801, 1-G (803), Lights corresponding to 1-I 805, elevator 807, 5-I 809, 5-J 811, 5-K 813, and 5-D 814 are turned on. At this time, when the user arrives at the arrival place 5-D (814), the building management server 30 is the entrance 801, 1-G (803) except for the illumination of the arrival place 5-D (814) , The lights corresponding to 1-I 805, elevator 807, 5-I 809, 5-J 811, and 5-K 813 are turned off. Here, the building management server 30 determines whether the lights that are lit in relation to the movement paths of other users among the lights that are lit according to the movement path of the user, and if there is no overlapping lights, all included in the lighting list Turn off the lights. On the other hand, the building management server 30 is turned off by controlling only the remaining lights do not affect other users, if the overlapping lights are included.

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely presented specific examples for clarity and are not intended to limit the scope of the present invention. It is apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

The present invention identifies the user, determines whether the building is in or out, searches the lighting list according to the identified movement path of the user, and controls a plurality of the corresponding lights, thereby partially lighting according to the movement route of the indoor personnel in the building. Lights up the lights outside the arrival point when the resident arrives at the final destination, saving energy, and reducing the energy waste and replacement costs caused by lighting and turning off regardless of the number of people in the room. As a result, it is possible to grasp the figures of the number of occupants in the building in real time, and it is possible to provide information on the lighting energy consumption for each floor and zone in real time, so that it is economical by inducing residents to save energy.

10: ID Recognition
20: ID Recognizer
30: building management server
31: building control unit
32: access control
33: access information collection unit
34: accessor DB
35: lighting management
36: lighting circuit DB
37: user lighting setting unit
40: network
50: light switch
100: automatic lighting control system

Claims (19)

At least one ID recognizer installed at an access point to recognize an ID entering and leaving; And
Determining whether or not to enter the building by checking the ID, if entering the building, by checking the movement path associated with the ID to search the lighting list, lighting a plurality of lights included in the searched lighting list, the arrival A building management server that detects whether the arrival is made according to the movement path through a sensor of a place, and turns off the remaining lights except the lighting of the arrival place among the plurality of lit lights;
Building lighting automatic control system comprising a. An access management unit identifying at least one ID and managing access of a user corresponding to the identified ID;
Determining whether to enter the building by checking the ID, and when entering the building, to check the moving path associated with the ID to search the lighting list, and to indicate the lighting of a plurality of lights included in the searched lighting list A building control unit which senses whether the light is detected according to the movement path through a sensor of an arrival place and instructs to turn off the remaining lights except for the lighting of the arrival place among the plurality of lit lights; And
A lighting management unit which checks the lighting list according to an on or off instruction of the building control unit and operates a plurality of lights included in the lighting list;
Building management server comprising a. The method of claim 2,
An access information collection unit for collecting information on the ID recognized through at least one recognition unit among RF card recognition, fingerprint recognition, iris recognition, and number recognition using a keypad and transmitting the collected information to the access management unit;
Building management server characterized in that it further comprises. According to claim 2, wherein the building control unit
When the ID identified in the access control unit is detected as leaving the building, the lighting list is searched according to the movement path associated with the identified ID, and overlapped with at least one other ID among the lights included in the searched lighting list. And determining whether there is a lit light, and if there is a duplicate light, the building management server comprising turning off the remaining lights except for the duplicated light in the light list. According to claim 2, wherein the building control unit
When it is detected as arrival at the arrival place by checking the ID identified by the access control unit, it is determined whether there is a light that is lit in association with another ID among the lights that are lit according to the movement path, and when the associated light exists. Building out, characterized in that the lights off other than the associated lighting. The method of claim 5, wherein the building control unit
If the associated lighting does not exist, the building management server, characterized in that to turn off the remaining lights other than the lighting of the arrival place of the lit lights. According to claim 2, wherein the building control unit
It is determined whether a setting of the lighting list is requested from a user, and when a setting of the lighting list is requested, a setting mode for the lighting list is executed, the lighting list for a plurality of lights is set in the setting mode, and And checking whether a plurality of lights included in a set lighting list exceeds a preset number of lights, and when setting the number of lights does not exceed a preset number of lights, setting of the lighting list. According to claim 2, wherein the building control unit
Building management server, characterized in that to calculate the numerical value of the number of occupants in the building through the confirmed ID, to store the calculated numerical value, and to request the display of the numerical value. According to claim 2, wherein the building control unit
Calculate the power consumption for each lighting, store the calculated use value for the power consumption for each floor in real time, and when the request for the display of the use value is characterized by presenting the corresponding use value Building management server. Confirming at least one ID by the building management server;
Determining, by the building management server, whether the building is accessed or not for the ID;
Searching for an illumination list by checking, by the building management server, a moving path corresponding to the ID when entering the building;
Lighting up a plurality of lights included in the searched lighting list by the building management server;
Detecting whether the building management server arrives according to the movement path through a sensor of an arrival place; And
When the arrival place arrives, the building management server turning off the remaining lights, except for the illumination of the arrival place, among the plurality of lit lights;
Building lighting automatic control method comprising a. The method of claim 10, wherein the checking step
Recognizing, by the building management server, the ID; And
Retrieving, by the building management server, a user's name, office location, lighting list for a moving path, entrance time and departure time corresponding to the recognized ID;
Building lighting automatic control method comprising a. The method of claim 10, wherein the checking step
Confirming, by the building management server, the arrival place through the ID; And
Analyzing, by the building management server, the movement route to reach the confirmed arrival place;
Building lighting automatic control method comprising a. The method of claim 10, wherein the checking step
Collecting information on the ID for recognizing the ID through at least one recognition means among RF card recognition, fingerprint recognition, iris recognition, and number recognition using a keypad;
Building lighting automatic control method characterized in that it further comprises. The method of claim 10, wherein the determining step
Searching for an illumination list according to a movement path associated with the identified ID, when the building management server detects an identification from the building by checking an identified ID;
Determining, by the building management server, whether there is a light that is overlapped with at least one other ID among lights included in the searched lighting list; And
If there are duplicate lights, the building management server turning off the remaining lights except for the duplicate lights in the lighting list;
Building lighting automatic control method characterized in that it further comprises. The method of claim 10, wherein the step of extinguishing
Checking the identified ID to arrive at the arrival place, and determining, by the building management server, whether there is a lit light associated with another ID among lights lit according to the movement path; And
If the associated lighting exists, turning off the remaining lights except for the associated lighting by the building management server;
Building lighting automatic control method comprising a. The method of claim 15, wherein the step of extinguishing
And when the associated lighting does not exist, the building management server extinguishes the remaining lights except for the lighting at the arrival place among the lit lights. The method of claim 10, wherein prior to the checking step,
Confirming, by the building management server, each arrival place for a plurality of IDs;
Retrieving, by the building management server, an illumination list for a plurality of lights associated with the movement path; And
Registering, by the building management server, the searched lighting list with the ID;
Building lighting automatic control method characterized in that it further comprises. The method of claim 10, wherein after the determining step,
Calculating, by the building management server, the number of occupants in the building through the identified ID;
Storing, by the building management server, the calculated numerical value; And
If the building management server requests the display of the numerical value, presenting a corresponding numerical value;
Building lighting automatic control method characterized in that it further comprises. The method of claim 10, wherein after the extinction step,
Calculating, by the building management server, power consumption for each light;
Storing, by the building management server, the used value for the calculated power consumption for each floor in real time; And
If the building management server requests an indication of the usage value, presenting a corresponding usage value;
Building lighting automatic control method characterized in that it further comprises.

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