CN106658908A - Intelligent illumination monitoring system - Google Patents

Abstract

The invention relates to an intelligent illumination monitoring system. The intelligent illumination monitoring system comprises a monitoring center, a communication server, a mobile terminal, a router, a wireless communication unit, a video monitoring sub-system, a public area illumination sub-system and an office area illumination sub-system, wherein the video monitoring sub-system comprises a video server and a camera; the public area illumination sub-system comprises public illuminating lamps, a loop controller, an infrared sensing unit, an acoustic control sensing unit, a voltage and current detection unit and a relay; and the office area illumination sub-system comprises office illuminating lamps, a loop controller, an illumination sensing unit, an infrared sensing unit, a voltage and current detection unit and a relay. Video data of the illuminating lamps in each area are checked in real time through the monitoring center and the mobile terminal, and current and voltage detection is carried out on the illuminating lamps in each area, intelligent sensing units are used for intelligently controlling public areas and office areas, and the intelligent sensing units are automatically switched on when necessary, so that green energy saving and energy efficiency management of buildings are realized.

Description

Intelligent lighting monitoring system

Technical Field

The invention relates to the field of intelligent control, in particular to an intelligent lighting monitoring system.

Background

The existing lighting control of office buildings is mostly controlled individually by setting switches in each office and hall, and then a master switch is set in each unit or floor to control the master power supply. Therefore, workers need to turn on and off the power supply every day on and off, and various inconveniences are caused. Moreover, with the change of weather and the change of indoor light, the requirement on the illumination intensity is different at different periods, and the common illumination circuit cannot be adjusted correspondingly at all, so that the common working personnel work in the environment with too strong or too weak light, and the physical and mental health of the working personnel is not facilitated. In addition, after leaving office, the person who finally leaves office often forgets to turn off the power supply, which causes various unnecessary wastes.

In view of the above-mentioned drawbacks, it is highly desirable to provide an intelligent lighting monitoring system, which can intelligently control a public area and an office area in an office building, divide the public area and the office area according to different occasions and working modes, turn off unnecessary lighting fixtures, automatically turn on the lighting fixtures when necessary, and perform video loop monitoring and current-voltage detection on the lighting fixtures according to the management requirements of the building, so as to implement green energy saving and energy efficiency management of the building.

Disclosure of Invention

The invention aims to provide an intelligent lighting monitoring system which can respectively carry out intelligent control on a public area and an office area in an office building, is divided according to different occasions and working modes, turns off unnecessary lighting lamps, automatically turns on the lighting lamps when needed, and carries out video loop monitoring and current and voltage detection on the lighting lamps by combining the management requirements of the building so as to realize green energy-saving and energy-efficiency management of the building.

In order to realize the purpose, the following technical scheme is provided: an intelligent lighting monitoring system comprises a monitoring center, a communication server, a mobile terminal, a router, a wireless communication unit, a video monitoring subsystem, a public area lighting subsystem and an office area lighting subsystem; the monitoring center is sequentially connected with the wireless communication unit through the communication server and the router, and the mobile terminal is connected with the communication server; wherein,

the video monitoring subsystem comprises a video server and a camera, wherein one end of the video server is connected with the wireless communication unit, and the other end of the video server is connected with the camera;

the public area lighting subsystem comprises a public lighting lamp, a loop controller, an infrared induction unit, a voice control induction unit, a voltage and current detection unit and a relay, wherein the public lighting lamp is connected with the infrared induction unit, the voice control induction unit, the voltage and current detection unit and the relay through the loop controller;

the office area illumination subsystem comprises an office illumination lamp, a loop controller, an illumination induction unit, an infrared induction unit, a voltage and current detection unit and a relay, the office illumination lamp is connected with the illumination induction unit, the infrared induction unit, the voltage and current detection unit and the relay through the loop controller, the infrared induction unit is used for recognizing biological signals, and the illumination induction unit is used for recognizing ambient light intensity signals.

Preferably, the camera is a high-speed ball camera.

Preferably, the video server is a network video server.

Preferably, the wireless communication unit is at least one of an ISM wireless transmission module, a Z i gbee wireless transmission module, a GPRS wireless transmission module, a GSM wireless transmission module, and a CDMA wireless transmission module.

Preferably, the mobile terminal is any one of a smart phone, a notebook computer and a tablet computer.

Preferably, the illuminance sensing unit includes at least one light sensor, and the ambient illuminance is detected by the light sensor.

Preferably, the infrared sensing unit adopts a passive infrared detector.

The invention provides an intelligent lighting monitoring system, which has the beneficial effects that: the intelligent building energy-saving system monitors the illuminating lamps in the public area and the illuminating lamps in the office area simultaneously through the monitoring center and the mobile terminal, can look up video data of the illuminating lamps in each area in real time, detect current and voltage of the illuminating lamps in each area, intelligently control the public area and the office area through the infrared sensing unit, the voice control sensing unit and the illumination sensing unit, divide the public area and the office area according to different occasions and working modes, turn off unnecessary illuminating lamps, automatically turn on the illuminating lamps when needed, and achieve green energy-saving and energy-efficiency management of the building.

Drawings

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

Fig. 1 is a schematic structural diagram of an intelligent lighting monitoring system according to the present invention.

Description of reference numerals: 10. a monitoring center; 20. a communication server; 30. a router; 40. a wireless communication unit; 50. a mobile terminal; 60. a video monitoring subsystem; 61. a video server; 62. a camera; 70. a public area lighting subsystem; 71. a public lighting lamp; 72. a loop controller; 73. an infrared sensing unit; 74. a voice control sensing unit; 75. a voltage current detection unit; 76. a relay; 80. an office area lighting subsystem; 81. an office lighting lamp; 82. and an illumination induction unit.

Detailed Description

In order to make the contents of the present invention more comprehensible, the present invention is further described below with reference to the accompanying drawings. The invention is of course not limited to this particular embodiment, and general alternatives known to those skilled in the art are also covered by the scope of the invention. The present invention is described in detail with reference to the drawings, and the drawings are not to be considered as limiting the invention, but are enlarged partially in accordance with the general scale for convenience of explanation.

The above and other technical features and advantages will be described in detail with reference to the embodiments and the accompanying drawings. Fig. 1 is a schematic structural diagram of an intelligent lighting monitoring system according to the present invention.

As shown in fig. 1, the present invention provides an intelligent lighting monitoring system, which includes a monitoring center 10, a communication server 20, a mobile terminal 50, a router 30, a wireless communication unit 40, a video monitoring subsystem 60, a public area lighting subsystem 70, and an office area lighting subsystem 80; the monitoring center 10 is connected to the wireless communication unit 40 through the communication server 20 and the router 30 in sequence, and the mobile terminal 50 is connected to the communication server 20. The wireless communication unit 40 is preferably at least one of an ISM wireless transmission module, a Zigbee wireless transmission module, a GPRS wireless transmission module, a GSM wireless transmission module, and a CDMA wireless transmission module; the mobile terminal 50 is preferably any one of a smartphone, a laptop computer, and a tablet computer.

Specifically, a user can monitor the illumination in the office building through the monitoring center 10 and the mobile terminal 50, so as to facilitate maintenance and repair of the illumination quality, the video monitoring subsystem 60 includes a video server 61 and a camera 62, one end of the video server 61 is connected to the wireless communication unit 40, the other end is connected to the camera 62, the camera 62 is preferably a high-speed ball camera, and the video server 61 is preferably a network video server.

The public area lighting subsystem 70 in this embodiment includes a public lighting lamp 71, a loop controller 72, an infrared sensing unit 73, a voice control sensing unit 74, a voltage and current detection unit 75 and a relay 76, the public lighting lamp 71 is connected with the infrared sensing unit 73, the voice control sensing unit 74, the voltage and current detection unit 75 and the relay 76 through the loop controller 72, the infrared sensing unit 73 is used for identifying a biological signal, the voice control sensing unit 74 is used for identifying an environmental sound signal, the voltage and current detection unit 75 is used for performing voltage and current detection on the public lighting lamp, and the relay 76 is used for controlling on and off of the public lighting lamp.

Office area illumination subsystem 80 in this embodiment includes office lighting lamp 81, loop controller 72, illuminance sensing unit 82, infrared induction unit 73, voltage current detecting element 75 and relay 76, office lighting lamp 81 passes through loop controller 72 and connects illuminance sensing unit 82, infrared induction unit 73, voltage current detecting element 75 and relay 76, infrared induction unit 73 is used for discerning the biosignal, illuminance sensing unit 82 is used for discerning ambient light intensity signal, voltage current detecting element 75 is used for carrying out the voltage current detection to office lighting lamp, relay 76 is used for controlling the opening and close of office lighting lamp. The illuminance sensing unit 82 includes at least one optical sensor, and detects ambient illuminance through the optical sensor, and the infrared sensing unit 73 adopts a passive infrared detector.

In summary, the monitoring center 10 and the mobile terminal 50 simultaneously monitor the illumination lamps in the public area and the illumination lamps in the office area, so as to look up video data of the illumination lamps in each area in real time, detect current and voltage of the illumination lamps in each area, intelligently control the public area and the office area by the infrared sensing unit 73, the voice control sensing unit 74 and the illumination sensing unit 82, divide the areas according to different occasions and working modes, turn off unnecessary illumination lamps, and automatically turn on the illumination lamps when needed, thereby realizing green energy conservation and energy efficiency management of buildings.

Although the present invention has been described mainly in the above embodiments, it is described as an example only and the present invention is not limited thereto. Numerous modifications and applications will occur to those skilled in the art without departing from the essential characteristics of the embodiments. For example, each of the components detailed for the embodiments may be modified and operated, and the differences associated with the variants and applications may be considered to be included within the scope of protection of the invention as defined by the following claims.

Reference in the specification to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the purview of one skilled in the art to effect such feature, structure, or characteristic in connection with other ones of the embodiments.

Claims (7)

1. An intelligent illumination monitoring system is characterized by comprising a monitoring center, a communication server, a mobile terminal, a router, a wireless communication unit, a video monitoring subsystem, a public area illumination subsystem and an office area illumination subsystem; the monitoring center is sequentially connected with the wireless communication unit through the communication server and the router, and the mobile terminal is connected with the communication server; wherein,

the video monitoring subsystem comprises a video server and a camera, wherein one end of the video server is connected with the wireless communication unit, and the other end of the video server is connected with the camera;

the public area lighting subsystem comprises a public lighting lamp, a loop controller, an infrared induction unit, a voice control induction unit, a voltage and current detection unit and a relay, wherein the public lighting lamp is connected with the infrared induction unit, the voice control induction unit, the voltage and current detection unit and the relay through the loop controller;

the office area illumination subsystem comprises an office illumination lamp, a loop controller, an illumination induction unit, an infrared induction unit, a voltage and current detection unit and a relay, the office illumination lamp is connected with the illumination induction unit, the infrared induction unit, the voltage and current detection unit and the relay through the loop controller, the infrared induction unit is used for recognizing biological signals, and the illumination induction unit is used for recognizing ambient light intensity signals.

2. The intelligent lighting monitoring system of claim 1, wherein the camera is a high-speed ball camera.

3. The intelligent lighting monitoring system of claim 1, wherein the video server is a network video server.

4. The intelligent lighting monitoring system of claim 1, wherein the wireless communication unit is at least one of an ISM wireless transmission module, a Zigbee wireless transmission module, a GPRS wireless transmission module, a GSM wireless transmission module, and a CDMA wireless transmission module.

5. The intelligent lighting monitoring system according to claim 1, wherein the mobile terminal is any one of a smart phone, a notebook computer and a tablet computer.

6. The intelligent lighting monitoring system of claim 1, wherein the illuminance sensing unit comprises at least one light sensor, and the ambient illuminance is detected by the light sensor.

7. The intelligent lighting monitoring system of claim 1, wherein the infrared sensing unit is a passive infrared detector.