阅读说明：本技术 一种智能楼宇照明控制方法及系统 (Intelligent building illumination control method and system ) 是由 张智辉 徐立军 徐欢 于 2021-07-06 设计创作，主要内容包括：本申请涉及一种智能楼宇照明控制方法,包括以下步骤：将楼宇划分为多个区域,获取每个区域的区域信息；基于每个区域的区域信息为每个区域配置灯组,获取灯组信息；获取每个区域的照明需求信息；基于每个区域的灯组信息及照明需求信息,控制每个区域的照明灯光。本申请具有便于管理楼宇内部的照明控制系统,减少电力资源的浪费的效果。(The application relates to an intelligent building illumination control method, which comprises the following steps: dividing a building into a plurality of areas, and acquiring area information of each area; configuring a lamp group for each area based on the area information of each area, and acquiring the lamp group information; acquiring lighting demand information of each area; and controlling the lighting light of each area based on the lamp group information and the lighting demand information of each area. This application has the inside lighting control system of management building of being convenient for, reduces the effect of the waste of electric power resource.)

1. An intelligent building illumination control method is characterized in that: the method comprises the following steps:

dividing a building into a plurality of areas, and acquiring area information of each area;

configuring a lamp group for each area based on the area information of each area, and acquiring the lamp group information;

acquiring lighting demand information of each area;

and controlling the lighting light of each area based on the lamp group information and the lighting demand information of each area.

2. The intelligent building lighting control method according to claim 1, wherein; the method for dividing the building into a plurality of areas and acquiring the area information of each area comprises the following steps:

dividing a building into a first area, a second area and a third area according to functions based on building construction planning;

the first area is an office area, the second area is a service area, and the third area is a traffic area.

3. The intelligent building lighting control method according to claim 2, wherein: the configuring of the lamp group for each zone based on the zone information of each zone includes:

configuring a first lamp group (1) for the first area, wherein the first lamp group (1) comprises illuminating lamps and a control module (11), and the control module (11) is used for controlling the on and off of the illuminating lamps in the first area;

configuring a second lamp group (2) for the second area, wherein the second lamp group (2) comprises illuminating lamps, induction lamps and a timing module (21), and the timing module (21) controls the on and off of the illuminating lamps in the second area;

-configuring a third group of lamps (3) for said third area, said third group of lamps (3) comprising induction lamps;

the induction lamp comprises an infrared induction lamp and/or a sound control lamp.

4. The intelligent building lighting control method according to claim 3, wherein: the acquiring the requirement information of each area comprises:

acquiring lighting demand information of the first area;

acquiring lighting demand information of the second area;

and acquiring the lighting demand information of the third area.

5. The intelligent building lighting control method according to claim 4, wherein: the controlling the lighting light of each area based on the light group information and the lighting demand information of each area comprises:

adjusting the illumination state of the first lamp group (1) according to the lamp group information and the illumination demand information of the first area, so as to control the illumination light of the first area;

adjusting the illumination state of the second lamp group (2) according to the lamp group information and the illumination demand information of the second area, so as to control the illumination light of the second area;

and adjusting the illumination state of the third lamp group (3) according to the lamp group information and the illumination demand information of the third area, thereby controlling the illumination light of the third area.

6. The intelligent building lighting control method according to claim 1, wherein: the method for dividing the building into a plurality of areas and acquiring the area information of each area comprises the following steps:

dividing the building into a fourth area, a fifth area, a sixth area and a seventh area based on the passing frequency and the illumination intensity of the personnel;

the passing frequency of the personnel in the fourth area is greater than a preset frequency threshold, the maximum value of the illumination intensity is greater than a preset illumination threshold, and the minimum value of the illumination intensity is less than the preset illumination threshold;

the passing frequency of the personnel in the fifth area is greater than a preset frequency threshold, and the maximum value of the illumination intensity is smaller than the preset illumination threshold;

the passing frequency of the personnel in the sixth area is smaller than a preset frequency threshold, the maximum value of the illumination intensity is larger than the preset illumination threshold, and the minimum value of the illumination intensity is smaller than the preset illumination threshold;

and the passing frequency of the personnel in the seventh area is less than a preset frequency threshold, and the maximum value of the illumination intensity is less than the preset illumination threshold.

7. The intelligent building lighting control method of claim 6, wherein: the configuring of the lamp group for each zone based on the zone information of each zone includes:

configuring a fourth lamp set (4) for the fourth area, wherein the fourth lamp set (4) comprises a first illumination detection module (41) and an illuminating lamp, and the first illumination detection module (41) controls the on-off of the illuminating lamp;

configuring a fifth lamp group (5) for the fifth area, wherein the fifth lamp group (5) comprises an illuminating lamp, an induction lamp and an operation module (51), and the operation module (51) is used for controlling illumination switching operation of the illuminating lamp and the induction lamp;

configuring a sixth lamp set (6) for the sixth area, wherein the sixth lamp set (6) comprises a second illumination detection module (61) and an induction lamp, and the second illumination detection module (61) controls the induction lamp to be switched on and off;

a seventh lamp group (7) is configured for the seventh area, and the seventh lamp group (7) comprises induction lamps;

the induction lamp is one or more of an infrared induction lamp, a sound control lamp and a radar induction LED lamp.

8. The intelligent building lighting control method according to claim 7, wherein: the acquiring the requirement information of each area comprises:

acquiring lighting demand information of a fourth area;

acquiring lighting demand information of a fifth area;

acquiring lighting demand information of a sixth area;

lighting demand information for the seventh area is obtained.

9. The intelligent building lighting control method according to claim 8, wherein: the controlling the lighting light of each area based on the light group information and the lighting demand information of each area comprises:

adjusting the illumination state of the fourth lamp group (4) according to the lamp group information and the illumination demand information of the fourth area, so as to control the illumination light of the fourth area;

adjusting the lighting state of the fifth lamp group (5) according to the lamp group information and the lighting requirement information of the fifth area, so as to control the lighting lamp light of the fifth area;

adjusting the illumination state of the sixth lamp group (6) according to the lamp group information and the illumination demand information of the sixth area, so as to control the illumination light of the fifth area;

and adjusting the illumination state of the seventh lamp group (7) according to the lamp group information and the illumination demand information of the seventh area, thereby controlling the illumination light of the seventh area.

10. An intelligent building lighting control system comprising a memory, a processor and a computer program stored in the memory and capable of running on the processor, characterized in that: when the processor loads and executes the computer program, the method of any one of claims 1-9 is used.

Technical Field

The application relates to the technical field of intelligent buildings, in particular to an intelligent building illumination control method and system.

Background

The intelligent building manages the building by adopting an advanced computer control technology through a building automatic control system, so that the electromechanics of the building or the equipment in a building group are orderly, comprehensively, coordinately and scientifically carried out. The lighting control system is an important component of an intelligent building and is responsible for monitoring and controlling the work of the lighting lamps of the whole building. In the prior art, most of the lighting systems are manually controlled by personnel to turn on and off the lighting lights.

In view of the above-mentioned related technologies, the inventor thinks that the lighting lamp is controlled by a manual switch, which is less intelligent and inconvenient to manage, thereby causing waste of power resources.

Disclosure of Invention

In order to facilitate management of an illumination control system inside a building and reduce waste of power resources, the application provides an intelligent building illumination control method and system.

In a first aspect, the present application provides an intelligent building lighting control method, which adopts the following technical scheme:

an intelligent building illumination control method is characterized in that: the method comprises the following steps:

dividing a building into a plurality of areas, and acquiring area information of each area;

configuring a lamp group for each area based on the area information of each area, and acquiring the lamp group information;

acquiring lighting demand information of each area;

and controlling the lighting light of each area based on the lamp group information and the lighting demand information of each area.

By adopting the technical scheme, the building is divided into a plurality of areas, the lamp group is configured based on the area information of each area, and the lighting light of each area is controlled based on the lamp group information and the lighting demand information, so that the lighting systems in different areas can be conveniently managed in a unified manner, and the waste of power resources is reduced.

Optionally, the dividing the building into a plurality of regions, and the obtaining the region information of each region includes:

dividing a building into a first area, a second area and a third area according to functions based on building construction planning;

the first area is an office area, the second area is a service area, and the third area is a traffic area.

By adopting the technical scheme, the building is divided into the office area, the service area and the traffic area based on building construction planning, and different areas can be conveniently managed in a unified way according to different functions.

Optionally, the configuring the lamp set for each zone based on the zone information of each zone includes:

configuring a first lamp group for the first area, wherein the first lamp group comprises illuminating lamps and a control module, and the control module is used for controlling the on and off of the illuminating lamps in the first area;

configuring a second lamp group for the second area, wherein the second lamp group comprises an illuminating lamp, an induction lamp and a timing module, and the timing module controls the on-off of the illuminating lamp in the second area;

configuring a third lamp set for the third zone, the third lamp set comprising induction lamps;

the induction lamp comprises an infrared induction lamp and/or a sound control lamp.

By adopting the technical scheme, the lamp groups are set according to different demands of different areas in a targeted manner, so that the waste of resources is reduced, and the management is convenient.

Optionally, the acquiring the requirement information of each region includes:

acquiring lighting demand information of the first area;

acquiring lighting demand information of the second area;

and acquiring the lighting demand information of the third area.

By adopting the technical scheme, the lighting demand information of different areas is different, and the lighting demand information of different areas is obtained respectively, so that each area can be controlled independently.

Optionally, the controlling the lighting light of each region based on the light group information and the lighting demand information of each region includes:

adjusting the illumination state of the first lamp group according to the lamp group information and the illumination demand information of the first area, so as to control the illumination light of the first area;

adjusting the illumination state of the second lamp group according to the lamp group information and the illumination demand information of the second area, so as to control the illumination light of the second area;

and adjusting the illumination state of the third lamp group according to the lamp group information and the illumination demand information of the third area, thereby controlling the illumination light of the third area.

By adopting the technical scheme, illumination is provided for different areas in a targeted manner according to the lamp group information and the illumination demand information, and the resource waste is reduced.

Optionally, the dividing the building into a plurality of regions, and the obtaining the region information of each region includes:

dividing the building into a fourth area, a fifth area, a sixth area and a seventh area based on the passing frequency and the illumination intensity of the personnel;

the passing frequency of the personnel in the fourth area is greater than a preset frequency threshold, the maximum value of the illumination intensity is greater than a preset illumination threshold, and the minimum value of the illumination intensity is less than the preset illumination threshold;

the passing frequency of the personnel in the fifth area is greater than a preset frequency threshold, and the maximum value of the illumination intensity is smaller than the preset illumination threshold.

The passing frequency of the personnel in the sixth area is smaller than a preset frequency threshold, the maximum value of the illumination intensity is larger than the preset illumination threshold, and the minimum value of the illumination intensity is smaller than the preset illumination threshold;

and the passing frequency of the personnel in the seventh area is less than a preset frequency threshold, and the maximum value of the illumination intensity is less than the preset illumination threshold.

Through adopting above-mentioned technical scheme, divide the building into a plurality of regions through frequency and illumination intensity based on personnel, carry out regional division in combination personnel flow and the influence of external light source, reduced the waste of resource when convenient the management.

Optionally, a fourth lamp group is configured for the fourth area, where the fourth lamp group includes a first illumination detection module and an illumination lamp, and the first illumination detection module controls a switch of the illumination lamp;

configuring a fifth lamp group for the fifth area, wherein the fifth lamp group comprises an illuminating lamp, an induction lamp and an operation module;

configuring a sixth lamp group for the sixth area, wherein the sixth lamp group comprises a second illumination detection module and an induction lamp, and the second illumination detection module controls the induction lamp to be switched on and off;

configuring a seventh lamp group for the seventh area, wherein the seventh lamp group comprises induction lamps;

the induction lamp is one or more of an infrared induction lamp, a sound control lamp and a radar induction LED lamp.

By adopting the technical scheme, different lamp bank configurations are carried out on different areas according to the influence of personnel flow and external light sources, and resources are saved.

Optionally, the acquiring the requirement information of each region includes:

acquiring lighting demand information of a fourth area;

acquiring lighting demand information of a fifth area;

acquiring lighting demand information of a sixth area;

lighting demand information for the seventh area is obtained.

By adopting the technical scheme, the lighting demand information of different areas is received, the separate control is convenient, and the waste of resources is reduced.

Optionally, the controlling the lighting light of each region based on the light group information and the lighting demand information of each region includes:

adjusting the illumination state of the fourth lamp group according to the lamp group information and the illumination demand information of the fourth area, so as to control the illumination light of the fourth area;

adjusting the lighting state of the fifth lamp group according to the lamp group information and the lighting requirement information of the fifth area, so as to control the lighting lamp light of the fifth area;

adjusting the lighting state of the sixth lamp group according to the lamp group information and the lighting requirement information of the sixth area, so as to control lighting light of the fifth area;

and adjusting the illumination state of the seventh lamp group according to the lamp group information and the illumination demand information of the seventh area, thereby controlling the illumination light of the seventh area.

By adopting the technical scheme, the lighting light in different areas is separately controlled according to the lamp group information and the lighting demand information, so that the lighting is pertinently provided for the different areas, and the resource waste is reduced.

In a second aspect, the present application provides an intelligent building lighting control system, which adopts the following technical scheme:

an intelligent building lighting control system comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, and when the processor loads and executes the computer program, the method is adopted.

By adopting the technical scheme, the intelligent building lighting control method generates the computer program and stores the computer program in the memory so as to be loaded and executed by the processor, thereby being convenient to use.

Drawings

Fig. 1 is a schematic frame diagram of an intelligent building lighting control method according to an embodiment of the present application.

Fig. 2 is a schematic frame diagram of a first lamp set, a second lamp set and a third lamp set in the embodiment of the present application.

Fig. 3 is a schematic frame diagram of a seventh lamp group of a fourth lamp group, a fifth lamp group and a sixth lamp group in the embodiment of the present application.

Description of reference numerals:

1. a first lamp group; 11. a control module; 111. a storage unit; 112. a setting unit; 2. a second lamp group; 21. a timing module; 3. a third lamp group; 4. a fourth lamp group; 41. a first illumination detection module; 411. a first detection unit; 412. a first control unit; 5. a fifth lamp group; 51. an operation module; 511. a timing unit; 512. an operation unit; 6. a sixth lamp group; 61. a second illumination detection module; 611. a second detection unit; 612. a second control unit; 7. and a seventh lamp group.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an intelligent building illumination control method.

Example 1

Referring to fig. 1, the lighting control method includes the steps of:

s100, dividing a building into a plurality of regions, and acquiring region information of each region;

s200, configuring a lamp group for each area based on the area information of each area, and acquiring the lamp group information;

s300, acquiring lighting demand information of each area;

and S400, controlling the lighting light of each area based on the lamp group information and the lighting requirement information of each area.

Wherein, step S100 includes:

dividing a building into a first area, a second area and a third area according to functions based on building construction planning;

the first area is an office area, and the second area is a service area; the third area is a traffic area.

Specifically, when the building is constructed, the building is divided into an office area, a service area and a passage area according to the design plan of a building designer.

Wherein, step S200 includes:

configuring a first lamp group 1 for the first area, wherein the first lamp group 1 comprises illuminating lamps and a control module 11, and the control module 11 is used for controlling the on and off of the illuminating lamps in the first area;

configuring a second lamp group 2 for the second area, wherein the second lamp group 2 comprises illuminating lamps, induction lamps and a timing module 21, and the timing module 21 controls the on and off of the illuminating lamps in the second area;

configuring a third lamp group 3 for the third area, the third lamp group 3 comprising induction lamps;

the induction lamp comprises an infrared induction lamp and/or a sound control lamp.

Specifically, referring to fig. 2, in this embodiment, the illumination lamps in the first lamp group 1 provide a continuous illumination light source, the control module 11 may be a touch panel, a mobile phone, a computer, or other terminal device installed outside an office, the control module 11 includes a storage unit 111 and a setting unit 112, the storage unit 111 is preset with an on-time of the illumination lamps, and the illumination lamps are controlled to be turned on within a predetermined time and turned off within a predetermined time. The setting unit 112 is used for temporarily adjusting the power supply time, and after adjustment, the power supply time of the day is adjusted, and the time of the next day is recovered to be normal.

Specifically, referring to fig. 2, in the present embodiment, the illumination lamps in the second lamp group 2 provide continuous illumination light sources for the service area, the timing module 21 controls the turn-on time of the illumination lamps, and the illumination lamps perform illumination operation within a preset time period inside the timing module 21. When the illuminating lamp is turned off, the induction lamp is turned on and illuminates when sensing that a person passes through. In this embodiment, the induction lamp includes a sound control lamp and an infrared induction lamp disposed in the service area.

Specifically, referring to fig. 2, in the present embodiment, the third lamp group 3 includes a sound control lamp and an infrared induction lamp, the sound control lamp is installed in the traffic area, and the infrared induction lamp is installed at the entrance of the traffic area.

Wherein, step S300 includes:

acquiring lighting demand information of the first area;

acquiring lighting demand information of the second area;

and acquiring the lighting demand information of the third area.

Specifically, referring to fig. 2, for example, in the first region: the on time of the illumination lamp is set to 6 in the morning inside the storage unit 111: 00 to 22:00 pm, the illumination lamp acquires the illumination demand information of the storage unit 111 in this period. When the person needs to extend the illumination time, the extension time needs to be set using the setting unit 112 during the turn-on period. The turn-off time of the illuminating lamp is 22:00 on the day to 6:00 in the morning of the next day, and the illuminating lamp does not obtain the illumination requirement information in the time period. For example, when an office needs an extended period to 23 pm: when the time is 00 hours, a person sets the on time on the setting unit 112 to be prolonged to 23:00 at night, and the illumination lamp obtains the illumination demand information of the setting unit 112 in a time period of 22:00-23: 00.

Specifically, referring to fig. 2, for example, in the second region: the starting time of the illuminating lamp is preset in the timing module 21 to be 6:00 in the morning to 18:00 in the afternoon, and during the time period, the illuminating lamp acquires illumination demand information sent by the timing module 21. In the time period from 18:00 in the afternoon to 6:00 in the morning, the timing module 21 controls the illuminating lamp to be turned off, the induction lamp is turned on, when a person passes through the second area, the person is judged to send illumination requirement information, and the induction lamp obtains the illumination requirement information.

Specifically, referring to fig. 2, in the third region: when the personnel pass through the third area, the personnel are judged to send the illumination demand information, and the induction lamp obtains the illumination demand information.

Wherein, step 400 includes:

adjusting the lighting state of the first lamp group 1 according to the lamp group configuration and the lighting requirement of the first area, so as to control the lighting lamp light of the first area;

adjusting the lighting state of the second lamp group 2 according to the lamp group configuration and the lighting requirement of the second area, so as to control the lighting lamp light of the second area;

and adjusting the illumination state of the third lamp group 3 according to the lamp group configuration and the illumination requirement of the third area, thereby controlling the illumination light of the second area.

Specifically, referring to fig. 2, in the first region, morning 6: during the time period from 00 pm to 22:00 pm, the illumination lamp provides illumination for the first area based on the received illumination demand information. After the person finishes the setting of the setting unit 112 for the extended time, the lighting lamp receives the lighting requirement information of the extended lighting time and continues to provide lighting at night 22: 00-night 23: 00.

Specifically, referring to fig. 2, in the second area, during the 6:00 am to 18:00 pm period, the illumination lamp provides illumination for the second area based on the received illumination demand information. In the time period from 18:00 of the day to 6:00 of the next day, the illuminating lamp is turned off, the induction lamp is turned on, and the induction lamp provides illumination when detecting that a person passes by.

More specifically, after the person enters the second area within the time period of 18:00 days to 6:00 days, the sound control lamp detects the sound emitted by the person and provides illumination for the person. In order to more accurately identify the entrance of a person, an infrared induction lamp is installed at the entrance of the second area, and the infrared induction lamp illuminates when detecting that the person enters the second area. The arrangement of the infrared induction lamp and the sound control lamp provides guarantee for the illumination of the second area.

Specifically, referring to fig. 2, when a person enters the inside of the third area, the sensing lamp senses the passing of the person, and provides illumination. After personnel got into the third district, the sound that personnel sent was detected to the sound control lamp, provides the illumination for the personnel. For more accurate discernment personnel get into, install infrared induction lamp at the entrance in the third region, infrared induction lamp detects when personnel get into the third region, throws light on. The arrangement of the infrared induction lamp and the sound control lamp provides guarantee for illumination of the third area.

The implementation principle of the intelligent building illumination control method in the embodiment of the application is as follows: the building is divided into a first area, a second area and a third area, different lamp groups are set according to different functions, and different lighting states are set according to different time periods. The lighting system is convenient to manage by the aid of the arrangement, and meanwhile, power resources are saved. .

Example 2

Referring to fig. 1 and 3, the embodiment of the present application is different from embodiment 1 described above in that,

step S100 includes:

dividing the building into a fourth area, a fifth area, a sixth area and a seventh area based on the passing frequency and the illumination intensity of the personnel;

the passing frequency of the personnel in the fourth area is greater than a preset frequency threshold, the maximum value of the illumination intensity is greater than a preset illumination threshold, and the minimum value of the illumination intensity is less than the preset illumination threshold;

the passing frequency of the personnel in the fifth area is greater than a preset frequency threshold, and the maximum value of the illumination intensity is smaller than the preset illumination threshold.

The passing frequency of the personnel in the sixth area is smaller than a preset frequency threshold, the maximum value of the illumination intensity is larger than the preset illumination threshold, and the minimum value of the illumination intensity is smaller than the preset illumination threshold;

and the passing frequency of the personnel in the seventh area is less than a preset frequency threshold, and the maximum value of the illumination intensity is less than the preset illumination threshold.

Specifically, referring to fig. 3, the building is divided into a fourth area, a fifth area, a sixth area, and a seventh area based on the frequency of passage of people and the difference in illumination intensity. In this embodiment, the preset frequency threshold is set to 100 times/hour, that is, the number of times that people pass in each hour is 100; the preset illuminance threshold is set at 200 lx.

Specifically, referring to fig. 3, when the frequency of the people in the fourth area is greater than 100 times per hour, the maximum value of the illumination intensity is greater than 200lx, and the minimum value is less than 200lx, that is, the illumination intensity in the area changes along with the sunrise and sunset, and areas with good lighting, such as a reception hall, an office with windows, and the like, can meet the condition.

Specifically, referring to fig. 3, the frequency of the personnel in the fifth area is greater than 100 times per hour, and the maximum value of the illumination intensity is less than 200lx, which means that the day-to-day lighting in the area is weak, and the areas meeting this condition may be underground parking lots, underground moving squares, and the like.

Specifically, referring to fig. 3, when the frequency of passing of the person in the sixth area is less than 100 times/hour, the maximum value of the illumination intensity is greater than 200lx, and the minimum value is less than 200lx, that is, the illumination intensity in the area changes along with the sunrise and the sunset, and the areas meeting the condition may be staircases, terraces and the like.

Specifically, referring to fig. 3, when the frequency of the person in the seventh area is less than 100 times per hour, the maximum value of the illumination intensity is less than 200lx, which means that the area is weak in lighting all day long, and the areas meeting this condition may be equipment rooms, sundry rooms, and the like.

The step S200 includes:

configuring a fourth lamp set 4 for the fourth area, where the fourth lamp set 4 includes a first illumination detection module 41 and an illumination lamp, and the first illumination detection module 41 controls a switch of the illumination lamp;

configuring a fifth lamp set 5 for the fifth area, wherein the fifth lamp set 5 comprises an illuminating lamp, an induction lamp and an operation module 51;

configuring a sixth light group 6 for the sixth area, where the sixth light group 6 includes a second illumination detection module 61 and an induction lamp, and the second illumination detection module 61 controls a switch of the induction lamp;

a seventh lamp group 7 is configured for the seventh area, and the seventh lamp group 7 comprises induction lamps;

the induction lamp is one or more of an infrared induction lamp, a sound control lamp and a radar induction LED lamp.

Specifically, referring to fig. 3, a fourth lamp group 4 is configured in the fourth area, the fourth lamp group 4 includes an illumination lamp and a first illumination detection module 41, the first illumination detection module 41 includes a first detection unit 411 and a first control unit 412, in this embodiment, the first detection unit 411 is an illumination sensor, and is configured to collect a real-time illumination intensity value in the fourth area and send the collected real-time illumination intensity value to the first control unit 412, and the first control unit 412 controls a switch state of the illumination lamp based on the real-time illumination intensity value.

Specifically, referring to fig. 3, a fifth lamp group 5 is configured in the fifth area, the fifth lamp group 5 includes an illuminating lamp, an induction lamp and an operation module 51, and the operation module 51 controls the switching operation of the illuminating lamp and the induction lamp, in this embodiment, the induction lamp may be one or more of an infrared induction lamp, a sound control lamp and a radar induction LED lamp. The illuminating lamp continuously provides illumination for the fifth area within a certain time period, and the induction lamp does not work at the moment; when the illuminating lamp stops providing illumination, the induction lamp works. In this embodiment, when the fifth region is in the underground parking lot, adopt radar response LED lamp as the response lamp, the radar response LED lamp compares with infrared induction lamp and sound control lamp: the radar response LED lamp response distance is farther, and the angle is wide, and no blind spot can pierce through glass and thin plank, and is different according to power, can pierce through the wall of different thickness, does not receive influence such as environment, temperature, dust, need not to make a sound simultaneously, consequently comparatively is fit for installing in underground parking garage.

Specifically, referring to fig. 3, a sixth lamp group 6 is configured in the sixth area, where the sixth lamp group 6 includes the second illumination detection module 61 and the induction lamp, and in this embodiment, the induction lamp may be one or more of an infrared induction lamp, a sound control lamp, and a radar induction LED lamp. The second illumination detection module 61 includes a second detection unit 611 and a second control unit 612, the second detection unit 611 is an illumination sensor, and is configured to collect a real-time illumination intensity value inside the sixth area, and send the collected real-time illumination intensity value to the second control unit 612, and the second control controls the on/off state of the induction lamp based on the real-time illumination intensity value. In this embodiment, when the sixth area is a staircase, the sound control lamp and the infrared sensor lamp are used as the sensor lamps.

Specifically, referring to fig. 3, a seventh lamp group 7 is configured in the seventh area, where the seventh lamp group 7 includes an induction lamp, and in this embodiment, the induction lamp may be one or more of an infrared induction lamp, a sound control lamp, and a radar induction LED lamp.

Step S300 includes:

acquiring lighting demand information of a fourth area;

acquiring lighting demand information of a fifth area;

acquiring lighting demand information of a sixth area;

lighting demand information for the seventh area is obtained.

Specifically, referring to fig. 3, the first detecting unit 411 in the fourth area measures a real-time illumination intensity value, sends the real-time illumination intensity value to the first control unit 412, the first control unit 412 compares the real-time illumination intensity value with a preset illumination threshold, and when the real-time illumination intensity value is detected to be smaller than 200lx, it is determined that the fourth area sends out the lighting requirement information, and the first control unit 412 receives the lighting requirement information; when detecting that the real-time illumination intensity value is greater than 200lx, the first control unit 412 does not receive the lighting requirement information.

Specifically, referring to fig. 3, the operation module 51 in the fifth area includes a timing unit 511 and an operation unit 512, and the timing unit 511 stores therein a turn-on period of the illumination lamp, for example: when the fifth area is an underground parking lot, in the morning 5:00 to evening 23: in the time period 00, the timing unit 511 sends the lighting requirement information to the operation unit 512; the timing unit 511 stops transmitting the lighting demand information to the operation unit 512 during the period of 23:00 of the day to 5:00 of the morning. In the time period from 23:00 of the day to 5:00 of the morning, when the microwave sensor in the radar sensing LED lamp senses that a vehicle or a person passes by, the vehicle or the person is judged to send illumination requirement information, and the radar sensing LED lamp receives the illumination requirement information.

Specifically, referring to fig. 3, when the sixth area is a stairwell, the second detecting unit 611 detects a real-time illumination intensity value in the stairwell, and when the second control unit 612 detects that the real-time illumination intensity value is smaller than the preset illumination threshold 200lx, it is determined that the second control unit 612 receives the lighting requirement information.

Specifically, referring to fig. 3, when the seventh area is a warehouse, the sound control lamp and/or the infrared induction lamp determines that the person sends the lighting demand information when detecting that the person passes through.

Step S400 includes:

adjusting the illumination state of the fourth lamp group 4 according to the lamp group information and the illumination demand information of the fourth area, thereby controlling the illumination light of the fourth area;

adjusting the lighting state of the fifth lamp group 5 according to the lamp group information and the lighting requirement information of the fifth area, so as to control the lighting lamp light of the fifth area;

adjusting the illumination state of the sixth lamp group 6 according to the lamp group information and the illumination demand information of the sixth area, thereby controlling the illumination light of the fifth area;

and adjusting the illumination state of the seventh lamp group 7 according to the lamp group information and the illumination demand information of the seventh area, thereby controlling the illumination light of the seventh area.

Specifically, referring to fig. 3, the fourth region: when the first control unit 412 determines that the real-time illumination intensity value is smaller than 200lx, it is determined that the fourth area sends out the illumination requirement information, and the first control unit 412 receives the illumination requirement information and controls the illumination lamp to be turned on; when detecting that the real-time illumination intensity value is greater than 200lx, it is determined that the lighting requirement information is not sent out in the fourth area, and the first control unit 412 controls the lighting lamp to turn off.

Specifically, referring to fig. 3, the fifth region: 5:00 in the morning to 23 in the evening: in the time period of 00, the operation unit 512 receives the illumination demand information sent by the timing unit 511, controls the illumination lamp to be turned on, and provides illumination for the underground parking lot; and in the time period of 23:00 the day to 5:00 the next morning, after the radar sensing LED lamp receives the illumination demand information, the radar sensing LED lamp is turned on to provide illumination for the underground parking lot.

Specifically, referring to fig. 3, the sixth region: when the real-time illumination intensity value received by the second control unit 612 is smaller than the preset illumination threshold value 200lx, the sound control lamp and/or the infrared induction lamp are/is controlled to be powered on. After the sound control lamp and/or the infrared induction lamp are electrified, people are detected to pass through the sound control lamp and/or the infrared induction lamp, the sound control lamp and/or the infrared induction lamp are judged to send illumination demand information for the people, and the sound control lamp and/or the infrared induction lamp are turned on to illuminate the stairwell.

Specifically, the method comprises the following steps: referring to fig. 3, seventh region: when the sound control lamp and/or the infrared induction lamp detects that a person passes through, the judgment person sends out lighting demand information, and the sound control lamp and/or the infrared induction lamp is turned on to illuminate the staircase.

The embodiment of the application also discloses an intelligent building lighting control system, which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein the method is adopted when the processor loads and executes the computer program.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.