阅读说明：本技术 一种智能照明控制系统 (Intelligent lighting control system ) 是由 刘通达 李晓波 于 2020-12-31 设计创作，主要内容包括：本发明公开了一种智能照明控制系统,包括智能终端、云服务平台、照明控制总系统、多个照明控制子系统、故障检测系统和多个照明设备；故障检测系统用于对照明设备进行实时故障检测,利于及时对照明设备进行维修。故障检测系统中信息采集单元用于实时采集照明设备的工作状况,地理模块用于获取照明设备的地理信息；处理模块根据信息采集元件采集到的信息进行分析,判断照明设备是否发生故障,当照明设备发生故障,处理模块将照明设备的故障信息及地理信息给控制子系统和云服务平台,控制子系统与报警模块连接,进行报警,便于对发生故障的照明设备进行维修。(The invention discloses an intelligent illumination control system which comprises an intelligent terminal, a cloud service platform, an illumination control total system, a plurality of illumination control subsystems, a fault detection system and a plurality of illumination devices, wherein the intelligent terminal is connected with the cloud service platform; the fault detection system is used for carrying out real-time fault detection on the lighting equipment, and is favorable for timely maintaining the lighting equipment. The information acquisition unit in the fault detection system is used for acquiring the working condition of the lighting equipment in real time, and the geographic module is used for acquiring geographic information of the lighting equipment; the processing module analyzes the information acquired by the information acquisition element and judges whether the lighting equipment fails, when the lighting equipment fails, the processing module sends the failure information and the geographic information of the lighting equipment to the control subsystem and the cloud service platform, the control subsystem is connected with the alarm module to give an alarm, and the lighting equipment which fails is convenient to maintain.)

1. An intelligent lighting control system is characterized by comprising an intelligent terminal, a cloud service platform, a lighting control total system, a plurality of lighting control subsystems, a fault detection system and a plurality of lighting devices;

the intelligent terminal can check the operation state of the lighting equipment by logging in the cloud service platform, and sends a control instruction to the control main system to control the starting and stopping of the lighting equipment;

the lighting control subsystems are connected with the lighting control overall system, and the lighting control overall system is used for controlling the lighting control subsystems; the lighting control subsystem is used for controlling the starting and stopping of a plurality of lighting devices connected with the lighting control subsystem, and the lighting devices are connected in parallel;

the fault detection system is used for carrying out real-time fault detection on the lighting equipment, and comprises a plurality of information acquisition elements, an alarm module, a processing module and a geographic module; the information acquisition unit and the geographic module are respectively connected with the lighting equipment, the information acquisition unit is used for acquiring the working condition of the lighting equipment in real time, and the geographic module is used for acquiring geographic information of the lighting equipment; the information acquisition element and the geographic module are respectively connected with the processing module, the processing module analyzes the information acquired by the information acquisition element and judges whether the lighting equipment fails, when the lighting equipment fails, the processing module sends the failure information and the geographic information of the lighting equipment to the control subsystem and the cloud service platform, and the control subsystem is connected with the alarm module and gives an alarm.

2. The intelligent illumination control system of claim 1, wherein the alarm module comprises a system interface alarm module, a sound and light alarm module and an intelligent terminal alarm module, the system interface alarm module is connected with the cloud service platform, the intelligent terminal alarm module is connected with the intelligent terminal, and the sound and light alarm module is connected with the control subsystem.

3. The intelligent lighting control system according to claim 1, wherein the information collecting element comprises a monitoring module connected in series with the lighting device, and a detection circuit connected in parallel with the lighting device, wherein the detection circuit is provided with a relay;

the monitoring module and the relay are connected with the processing module.

4. The intelligent lighting control system of claim 1, wherein the monitoring module comprises an illumination sensor and a light sensitive sensor, the illumination sensor being disposed in parallel with the light sensitive sensor.

5. The intelligent lighting control system of claim 1, further comprising a protection module, wherein the protection module is connected to the lighting control subsystem and the lighting device respectively.

6. The intelligent lighting control system of claim 1, wherein the protection module is a power-off protection unit.

7. The intelligent lighting control system according to claim 1, wherein a temperature sensor and a humidity sensor are arranged inside the lighting device, and the temperature sensor and the humidity sensor are respectively connected with the processing module.

8. The intelligent lighting control system of claim 1, wherein the intelligent terminal is connected with the cloud service platform in a 4G, 5G or wifi wireless communication manner.

9. The intelligent lighting control system of claim 1, wherein the intelligent terminal is a smartphone, a tablet, a PC, or a handheld device.

Technical Field

The invention belongs to the field of intelligent illumination, and particularly relates to an intelligent illumination control system.

Background

The intelligent lighting industry enters the Chinese market from the last 90 th century, and is always in a slow development state under the influence of various aspects of market consumption consciousness, market environment, product price, popularization strength and the like. In recent years, with the rapid development of national economy, particularly the high singing and leaping of the real estate industry, the domestic intelligent lighting industry develops rapidly, various intelligent lighting products are listed in various markets, and the scale of the Chinese intelligent lighting market grows from 49 billion yuan in 2005 to 137 billion yuan RMB in 2009. The capacity of the high-end intelligent lighting market in China is expected to reach 2000 billion dollars within 5 years.

Beginning in the 90 s of the 20 th century, foreign manufacturers of intelligent lighting systems have invested in the factory in china. In the 21 st century, domestic intelligent lighting manufacturers and merchants develop rapidly like spring bamboo shoots after rain, and emerge dozens of enterprises with different sizes such as Reilang, Bailiang lighting, Qinghua same side, Sobo and the like, and the domestic intelligent lighting industry enters a brand-new development stage. However, since the foreign brand intelligent lighting system starts early and the research and development strength of international enterprises is strong, the products thereof all run at the front end of the intelligent lighting industry in the aspects of originality, quality and the like, and the domestic intelligent lighting market is the world of foreign brands. Foreign brands occupy more than 90% of the market share of large public buildings (such as stadiums, office buildings, hotels and the like) and more than 70% of the market share of household intelligent lighting systems in China, and domestic industry enterprises cannot compete with the public buildings.

Compared with the traditional illumination, the intelligent illumination can achieve the purposes of safety, energy conservation, comfort and high efficiency, so that the intelligent illumination has better development prospects in the fields of home furnishing, office work, business and public facilities. The intelligent illumination market in China is not mature, the application field of intelligent illumination is mainly concentrated in the business field and the public facility field, and more intelligent illumination is adopted and used in the fields of hotels, exhibition venues, municipal engineering and road traffic; in addition, intelligent illumination is also adopted in office buildings and high-end villas. With the development of domestic intelligent lighting research and development production technology and the increase of product popularization, the intelligent lighting application in the household field is expected to be popularized.

Currently, intelligent lighting is going into thousands of households and commercial and social public places, and in order to meet the lighting requirements of the whole building or street, the intelligent lighting is not limited to lighting of a single lamp, but is a multi-type and most-quantity lighting system. However, how to quickly monitor whether a fault occurs in a huge number of intelligent lamps and how to quickly locate the fault lamp is a problem worthy of research. Whether intelligent lamp has the trouble among the prior art, specific position is where, mainly relies on user or managers' naked eye observation, and whether the luminous device that the intelligent lamp can only be observed to the naked eye observation normally operates, and the degree of depth of detection is limited, and the detection to other functional unit of intelligent lamp need rely on professional equipment to detect one by one, leads to intelligent lamp fault detection slow, inefficiency.

Disclosure of Invention

The invention provides an intelligent lighting control system which can detect faults of lighting equipment in real time and is beneficial to timely maintenance of the lighting equipment.

The technical scheme of the invention is realized as follows:

an intelligent lighting control system comprises an intelligent terminal, a cloud service platform, a lighting control total system, a plurality of lighting control subsystems, a fault detection system and a plurality of lighting devices;

the intelligent terminal can check the operation state of the lighting equipment by logging in the cloud service platform, and sends a control instruction to the control main system to control the starting and stopping of the lighting equipment;

the lighting control subsystems are connected with the lighting control overall system, and the lighting control overall system is used for controlling the lighting control subsystems; the lighting control subsystem is used for controlling the starting and stopping of a plurality of lighting devices connected with the lighting control subsystem, and the lighting devices are connected in parallel;

the fault detection system is used for carrying out real-time fault detection on the lighting equipment, and comprises a plurality of information acquisition elements, an alarm module, a processing module and a geographic module; the information acquisition unit and the geographic module are respectively connected with the lighting equipment, the information acquisition unit is used for acquiring the working condition of the lighting equipment in real time, and the geographic module is used for acquiring geographic information of the lighting equipment; the information acquisition element and the geographic module are respectively connected with the processing module, the processing module analyzes the information acquired by the information acquisition element and judges whether the lighting equipment fails, when the lighting equipment fails, the processing module sends the failure information and the geographic information of the lighting equipment to the control subsystem and the cloud service platform, and the control subsystem is connected with the alarm module and gives an alarm.

Furthermore, the alarm module comprises a system interface alarm module, an audible and visual alarm module and an intelligent terminal alarm module, the system interface alarm module is connected with the cloud service platform, the intelligent terminal alarm module is connected with the intelligent terminal, and the audible and visual alarm module is connected with the control subsystem.

Furthermore, the information acquisition element comprises a monitoring module connected in series with the lighting equipment and a detection circuit connected in parallel with the lighting equipment, and the detection circuit is provided with a relay;

the monitoring module and the relay are connected with the processing module.

Further, the monitoring module comprises an illumination sensor and a photosensitive sensor, and the illumination sensor and the photosensitive sensor are arranged in parallel.

Furthermore, the system also comprises a protection module which is respectively connected with the illumination control subsystem and the illumination equipment.

Furthermore, the protection module is a power-off protection unit.

Furthermore, the inside of the lighting device is provided with a temperature sensor and a humidity sensor which are respectively connected with the processing module.

Furthermore, the intelligent terminal is connected with the cloud service platform in a 4G, 5G or wifi wireless communication mode.

Furthermore, the intelligent terminal is a smart phone, a tablet computer, a PC or a handheld device.

The invention provides an intelligent lighting control system, which has the following advantages:

1) the illumination control main system is used for controlling the illumination control subsystem and controlling the start and stop of all illumination equipment under the whole control subsystem; the lighting control subsystem is used for controlling the starting and stopping of a plurality of lighting devices connected with the lighting control subsystem, the lighting devices are connected in parallel, and the use of other lighting devices is not influenced when one lighting device breaks down.

2) The fault detection system is used for carrying out real-time fault detection on the lighting equipment, and is favorable for timely maintaining the lighting equipment. The information acquisition unit in the fault detection system is used for acquiring the working condition of the lighting equipment in real time, and the geographic module is used for acquiring geographic information of the lighting equipment; the processing module analyzes the information acquired by the information acquisition element and judges whether the lighting equipment fails, when the lighting equipment fails, the processing module sends the failure information and the geographic information of the lighting equipment to the control subsystem and the cloud service platform, the control subsystem is connected with the alarm module to give an alarm, and the lighting equipment which fails is convenient to maintain.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of the operation of the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

It should be noted that in the description of the present invention, it is to be understood that the terms "central", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the technical scheme, the terms "first" and "second" are only used for referring to the same or similar structures or corresponding structures with similar functions, and are not used for ranking the importance of the structures, or comparing the sizes or other meanings.

With reference to fig. 1, the present invention provides an intelligent lighting control system, which includes an intelligent terminal, a cloud service platform, a lighting control overall system, a plurality of lighting control subsystems, a fault detection system, and a plurality of lighting devices.

The cloud service platform is connected with the intelligent terminal, the cloud service platform is connected with the lighting master control system and the fault detection system through the gateway respectively, the intelligent terminal can check the operation state of the lighting equipment through the cloud service platform, sends a control instruction to the control master system and controls the starting and stopping of the lighting equipment. Preferably, the intelligent terminal is a smart phone, a tablet computer, a PC or a handheld device.

The cloud service platform is also a virtual service platform or a virtual special service platform, the service platform is an addition, use and interaction platform based on the internet and related to starting and stopping control of the lighting equipment, and a user can log in the cloud service platform through the intelligent terminal and check and control the lighting equipment.

The gateway is used as a link between the control main system and the cloud service platform, protocol conversion between the control main system and the cloud service platform can be realized by the gateway, information sent by the control main system can be transmitted to the cloud service platform, and a user can conveniently access the cloud service platform through the intelligent terminal.

The lighting control subsystems are connected with the lighting control main system, and the lighting control main system is used for controlling the lighting control subsystems and controlling starting and stopping of all lighting equipment under the whole control subsystem; the lighting control subsystem is used for controlling the starting and stopping of a plurality of lighting devices connected with the lighting control subsystem, the lighting devices are connected in parallel, and the use of other lighting devices is not influenced when one lighting device breaks down.

The fault detection system is used for carrying out real-time fault detection on the lighting equipment, and is favorable for timely maintaining the lighting equipment. The fault detection system comprises a plurality of information acquisition elements, an alarm module, a processing module and a geographic module; the information acquisition unit and the geographic module are respectively connected with the lighting equipment, the information acquisition unit is used for acquiring the working condition of the lighting equipment in real time, and the geographic module is used for acquiring geographic information of the lighting equipment; the information acquisition element and the geographic module are respectively connected with the processing module, the processing module analyzes the information acquired by the information acquisition element to judge whether the lighting equipment fails, when the lighting equipment fails, the processing module sends the failure information and the geographic information of the lighting equipment to the control subsystem and the cloud service platform, and the control subsystem is connected with the alarm module to give an alarm so as to be convenient for maintaining the failed lighting equipment.

Preferably, the alarm module comprises a system interface alarm module, a sound and light alarm module and an intelligent terminal alarm module, the system interface alarm module is connected with the cloud service platform, and the system interface alarm module is used for displaying alarm information on the cloud service platform; the intelligent terminal alarm module is connected with the intelligent terminal and used for sending alarm information to the set intelligent terminal, so that the lighting equipment can be maintained and maintained in time according to the received fault information; and the sound-light alarm module and the control subsystem are used for sending alarm information to the control subsystem.

The information acquisition element comprises a monitoring module connected in series on the lighting equipment and a detection circuit connected in parallel on the lighting equipment, and the detection circuit is provided with a relay; the monitoring module and the relay are connected with the processing module. The monitoring module is used for detecting the working condition of each lighting device, and once a fault occurs, the fault information is sent to the processing module, the processing module controls the relay to detect a detection circuit connected in parallel to the lighting devices, when the lighting devices are detected to have faults, the relay sends the information to the processing module, and the processing module sends the fault information to the control subsystem.

The monitoring module comprises an illumination sensor and a photosensitive sensor, the illumination sensor and the photosensitive sensor are arranged in parallel and used for detecting illumination brightness of the lighting equipment, the photosensitive sensor is used for detecting environment brightness and sending the illumination brightness and the brightness of the external environment to the processing module, and the processing module compares the illumination brightness with the brightness of the external environment; when the illumination brightness is smaller than the brightness of the external environment or the illumination brightness exceeds a threshold value, the processing module controls the relay to detect the detection circuit connected to the lighting equipment in parallel.

Preferably, the lighting control system further comprises a protection module, wherein the protection module is respectively connected with the lighting control subsystem and the lighting equipment; when the illumination brightness exceeds the threshold value, the processing module controls the relay to detect a detection circuit connected in parallel with the lighting equipment, and when the detected information that the current is too large is sent to the control subsystem, the control subsystem controls the protection module to protect the lighting equipment. The protection module is a power-off protection unit and is used for performing power-off protection on the lighting equipment.

In the invention, the lighting equipment is internally provided with a temperature sensor and a humidity sensor which are respectively connected with the processing module. The temperature sensor is used for detecting the temperature of the lighting equipment in real time, the humidity sensor is used for detecting the humidity of the lighting equipment in real time, a detection result is sent to the processing module, when the temperature and/or the humidity exceed a threshold value, the processing module controls the relay to detect a detection circuit connected on the lighting equipment in parallel, when information of the detected temperature and/or humidity is sent to the control subsystem, and the control subsystem controls the protection module to perform power-off protection on the lighting equipment.

Furthermore, the intelligent terminal is connected with the cloud service platform in a 4G, 5G or wifi wireless communication mode, and the intelligent terminal enters the cloud service platform in the wireless communication mode.

The work flow of the present invention is explained in conjunction with fig. 1:

the intelligent terminal can check the operating condition of the lighting equipment through the cloud service platform, send a control instruction to the control main system, control the starting and stopping of the lighting equipment and control the starting and stopping of all the lighting equipment under the whole control subsystem; the lighting control subsystem is used for controlling the starting and stopping of a plurality of lighting devices connected with the lighting control subsystem, the lighting devices are connected in parallel, and the use of other lighting devices is not influenced when one lighting device breaks down.

The illumination sensor is used for detecting illumination brightness of the illumination equipment, the photosensitive sensor is used for detecting environment brightness, the processing module is used for comparing the illumination brightness with the external environment brightness, and when the illumination brightness is larger than the external environment brightness or the illumination brightness does not exceed a threshold value, the processing module cannot control the relay to work; when the illumination brightness is smaller than the brightness of the external environment or exceeds a threshold value, the processing module controls the relay to detect the detection circuit connected in parallel with the lighting equipment;

or a temperature sensor and a humidity sensor in the lighting equipment, wherein the temperature sensor is used for detecting the temperature of the lighting equipment in real time, and the humidity sensor is used for detecting the humidity of the lighting equipment in real time and sending the detection result to the processing module; when both the temperature and the humidity exceed the threshold values, the processing module cannot control the relay to work; when the temperature and/or the humidity exceed/exceeds a threshold value, the processing module controls the relay to detect a detection circuit connected to the lighting equipment in parallel;

the processing module controls the relay to detect a detection circuit connected in parallel to the lighting equipment, when the lighting equipment is detected to be in fault, the relay sends information to the processing module, and the processing module sends the fault information to the control subsystem; the control subsystem can control the sound-light alarm module to send out alarm information. The processing module sends the fault information to a system interface alarm module and an intelligent terminal alarm, and the system interface alarm module is used for displaying alarm information on the cloud service platform; the intelligent terminal alarm module is used for sending alarm information to the set intelligent terminal, so that the lighting equipment can be maintained and maintained conveniently in time according to the received fault information.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.