CN211744819U - Intelligent control system for campus indoor lighting - Google Patents

Abstract

The utility model discloses a campus indoor lighting intelligence control system, illuminance sensor 1's output contact inserts to intelligent control module 3 input, and infrared human body sensor 2's output inserts to intelligent control module 3 input, and intelligent control panel 5's output inserts intelligent control module 3's input, and intelligent control module 3's output and electric window curtain 4 are established ties, and intelligent control module 3's output inserts 6 lighting power supply return circuits of electricity-saving lamp. The utility model discloses control logic is simple, reliable, but manual control or automatic control, and intelligent degree is high, and equipment is simple, and economy is suitable for. Manual control is reduced, distraction of students in a classroom is reduced, and teaching efficiency is improved.

Description

Intelligent control system for campus indoor lighting

Technical Field

The utility model relates to a campus indoor lighting intelligence control system.

Background

The campus waste phenomenon generally exists in more than 2000 colleges and universities in China. Due to lack of energy-saving consciousness, the phenomena of the incandescent lamp and the daytime lamp are common, and the phenomena are not intentional but are more rare. In offices, classrooms, laboratories and the like, the light is not turned on when the light is good, the light is turned on when the number of people is small, and the light is turned off when people walk; the requirements for the illumination intensity of classrooms, libraries, restaurants and the like in the campus are different, and the manual adjustment of the number of the lighting lamps is troublesome.

At present, lighting in a campus is mostly controlled manually, such as fixed-point patrol of logistics personnel, a lighting control system which can be automatically adjusted according to different illumination requirements does not exist, how to automatically adjust the illumination according to different occasions, and automatic turning off of lights when no person is in a room is a problem which is urgently needed to be solved at present.

Disclosure of Invention

The utility model aims at providing a campus indoor lighting intelligence control system can realize illumination intelligent management and control in the public integrated buildings such as classroom, library, dining room, can be according to indoor illumination intensity, opens or close light automatically. The technical scheme of the utility model is that: an intelligent control system for campus indoor lighting comprises an induction module, a control module and a lighting lamp system, wherein the induction module comprises an illumination sensor (1) and an infrared human body induction sensor (2), the control module comprises an intelligent control module (3), an electric curtain (4) and an intelligent control panel (5), and the lighting lamp system adopts an energy-saving lamp (6); the connection mode among each components is as follows: the output contact of illuminance sensor (1) inserts to intelligent control module (3) input, the output of infrared human induction sensor (2) inserts to intelligent control module (3) input, the input of intelligent control module (3) is inserted to the output of intelligent control panel (5), the output and the electric window curtain (4) of intelligent control module (3) are established ties, the output of intelligent control module (3) inserts electricity-saving lamp (6) lighting power supply return circuit.

The illumination sensor (1) adopts an illumination transmitter 4-20mA single illumination 0-65535, the infrared human body induction sensor (2) adopts a Honeywell PA-465 model, the intelligent control module (3) adopts a Siemens PLC200 module, and the intelligent control panel (5) adopts a US-LV model.

The utility model discloses a theory of operation:

as shown in figure 1, when nobody is in a room, the normally open contact of the infrared human body induction sensor (2) is closed and is input to the input end of the intelligent control module (3), when the intelligent control module (3) detects information, the output contact acts to disconnect the power supply loop of the energy-saving lamp (6), when someone is in the room, the normally open contact of the infrared human body induction sensor (2) is disconnected, the output contact of the intelligent control module (3) is closed and is connected with the power supply loop of the energy-saving lamp (6), when the illuminance sensor (1) detects that the illuminance is lower than a set value, the output contact is input to the input end of the intelligent control module (3), when the intelligent control module (3) detects information, the output contact acts to connect the electric curtain loop and pull the electric curtain open, at the moment, when the indoor illuminance is lower than the set illuminance, the output contact of the intelligent control module (3) connects the power supply loop of the corresponding energy-saving lamp (6), the corresponding light is on. The indoor energy-saving lamp (6) can also be manually controlled through the intelligent control panel (5).

The utility model discloses realize automatic control and manual control of light in public complex buildings such as campus dining room, classroom, dining room, gymnasium.

The utility model discloses technological effect:

the utility model discloses it is exactly to realize automatic control and the manual control function of light in public complex buildings such as campus dining room, classroom, dining room, gymnasium. The characteristics are as follows:

1. the intelligent energy-saving lamp has the advantages that the high-efficiency energy-saving lamps are selected, the number of the lamps to be turned on is automatically controlled according to different illumination requirements, the indoor unmanned automatic power-off is realized, the illumination lamps are turned off, the intelligent degree is high, and the energy-saving effect is obvious.

2. The work of logistics personnel can be reduced; the manpower is reduced and the expenditure is saved.

3. Manual control is reduced, distraction of students in a classroom is reduced, and teaching efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention

FIG. 2 is a top view of the installation of the present invention

Detailed Description

As shown in fig. 1, the campus indoor lighting intelligent control system is composed of a sensing module, a control module and a lighting lamp system, wherein the sensing module comprises an illumination sensor 1 and an infrared human body sensing sensor 2, the control module comprises an intelligent control module 3, an electric curtain 4 and an intelligent control panel 5, and the lighting lamp system adopts an energy-saving lamp 6; the connection mode among each components is as follows: the output contact of illumination sensor 1 inserts to the 3 inputs of intelligent control module, and the output of infrared human induction sensor 2 inserts to the 3 inputs of intelligent control module, and the input of intelligent control module 3 is inserted to the output of intelligent control panel 5, and the output of intelligent control module 3 establishes ties with electric window curtain 4, and the output of intelligent control module 3 inserts 6 lighting source return circuits of electricity-saving lamp.

The utility model provides a campus indoor lighting intelligence control system which characterized by: the illumination sensor 1 adopts an illumination transmitter 4-20mA single illumination 0-65535, the infrared human body induction sensor 2 adopts a Honeywell PA-465 model, the intelligent control module 3 adopts a Siemens PLC200 module, and the intelligent control panel 5 adopts a US-LV model.

The specific working process is as follows: as shown in fig. 2, the energy-saving lamps 6 are installed in a matrix, the infrared human body induction sensors are installed with different numbers according to different indoor areas, the infrared human body induction sensors are installed on the ceiling, the intelligent control panel 5 is installed at the door opening and is convenient to operate, the illumination sensors are respectively installed at positions with special requirements for illumination, such as positions near the wall beside a blackboard and a desk, positions near the wall of a dining room and a dining table, and the illumination sensors correspond to the energy-saving lamps and are convenient to control.

As shown in fig. 1, when nobody is in the room, the infrared human body sensor detects nobody, the power circuit of the energy-saving lamp is disconnected through the intelligent controller, when nobody is in the room, the normally open contact of the infrared human body sensor 2 is closed and is input to the input end of the intelligent control module 3, when the intelligent control module 3 detects information, the output contact acts to disconnect the power circuit of the energy-saving lamp 6, when someone is in the room, the normally open contact of the infrared human body sensor 2 is disconnected, the output contact of the intelligent control module 3 is closed, the power circuit of the energy-saving lamp 6 is switched on, when the illuminance sensor 1 detects that the illuminance is lower than the set value, the output contact is input to the input end of the intelligent control module 3, when the intelligent control module 3 detects information, the output contact acts to switch on the electric curtain circuit and pull the electric curtain open, at this time, if the indoor illuminance, the output contact of the intelligent control module 3 connects the power supply circuit of the corresponding energy-saving lamp 6, and the corresponding lamp is on. The indoor energy-saving lamp 6 can also be manually controlled through the intelligent control panel 5.

The working principle and the embodiments of the present invention are explained in detail with reference to the drawings, but the present invention is not limited to the above embodiments: except for infrared human body induction sensor 2, intelligent control module 3, intelligent control panel 5 the utility model discloses appointed brand model, also can adopt other brands and model and the function unanimous can. The utility model discloses realize indoor illumination automatic control functions such as campus classroom, library, gymnasium, dining room, laboratory, equipment is simple, intelligent degree is high, and is energy-conserving high-efficient.

Claims (1)

1. The utility model provides a campus indoor lighting intelligence control system which characterized by: the intelligent illumination device comprises an induction module, a control module and an illumination lamp system, wherein the induction module comprises an illumination sensor (1) and an infrared human body induction sensor (2), the control module comprises an intelligent control module (3), an electric curtain (4) and an intelligent control panel (5), and the illumination lamp system adopts an energy-saving lamp (6); the connection mode among each components is as follows: the output contact of the illumination sensor (1) is connected to the input end of the intelligent control module (3), the output end of the infrared human body induction sensor (2) is connected to the input end of the intelligent control module (3), the output end of the intelligent control panel (5) is connected to the input end of the intelligent control module (3), the output end of the intelligent control module (3) is connected with the electric curtain (4) in series, the output end of the intelligent control module (3) is connected to the lighting power supply loop of the energy-saving lamp (6), the illumination sensor (1) adopts a lighting transmitter 4-20mA single lighting 0-65535, the infrared human body induction sensor (2) adopts a Hovenir PA-465 model, the intelligent control module (3) adopts a PLC200 module of a Siemens, and the intelligent control panel (5) adopts an US-LV model.

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