CN216531847U - Intelligent building public area illumination dimming system based on photoelectric complementation - Google Patents
Intelligent building public area illumination dimming system based on photoelectric complementation Download PDFInfo
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- CN216531847U CN216531847U CN202122497263.6U CN202122497263U CN216531847U CN 216531847 U CN216531847 U CN 216531847U CN 202122497263 U CN202122497263 U CN 202122497263U CN 216531847 U CN216531847 U CN 216531847U
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Abstract
The utility model discloses an intelligent building public area illumination dimming system based on photoelectric complementation, which comprises a power supply module, a sensor module, a programmable intelligent control panel, an intelligent illumination controller, a network module, an intelligent dimming module, terminal equipment and an LED lamp bank, wherein the sensor module and the LED lamp bank are respectively distributed in toilets, corridors, staircases and halls of all floors of an intelligent building; the dimming system can dim light of different areas according to actual requirements through the layout of sensors of all floors and all areas, so that energy-saving illumination of LED lamps in all areas of a building can be realized.
Description
Technical Field
The utility model relates to the technical field of dimming, in particular to an intelligent building public area illumination dimming system based on photoelectric complementation.
Background
The intelligent building refers to a building in which systems such as lighting, air conditioning, power supply, disaster prevention and theft prevention in the building cooperate with one another through modern intelligent technology. In intelligent buildings, power supply is an important component and an energy basis for building operation. Under the current strategic goals of 'carbon peak reaching' and 'carbon neutralization', domestic research on the problems of 'building energy conservation' and even 'building energy creation' is continuously increasing, and energy conservation is a great characteristic required by intelligent buildings. Under the policy of national energy conservation and emission reduction, intelligent buildings adopting distributed energy sources appear in various big cities, the increasing shortage of energy conditions greatly drives the development of the whole solar photovoltaic power generation technology, and buildings which mainly supply power by using solar energy at home and abroad are greatly developed in China. In addition, the automatic control of the traditional building lighting system is mostly realized through sound, and when the lighting brightness is not enough at night, the switch of the lamp is controlled through the sound of people, but obviously, the intelligent requirement of the building cannot be met. Modern intelligent buildings need a set of lighting dimming systems which can meet three requirements of sense, lamp service life and energy conservation. The system can continuously adjust light, control the illumination according to the intensity of ambient light, and adjust the illumination of the lamp according to the time of day.
SUMMERY OF THE UTILITY MODEL
Aiming at the problems, the utility model provides the intelligent building public area illumination dimming system based on photoelectric complementation, the dimming system can better meet the control requirement of the intelligent building photoelectric complementation LED illumination system, the working reliability of the illumination system is improved, in addition, the dimming is carried out on different floors and different areas according to the actual requirement through the layout of sensors of the floors and the areas, the energy-saving illumination of LED lamps in the areas of the intelligent building is realized, and the intelligent building public area illumination dimming system has certain application value.
The purpose of the utility model can be realized by the following technical scheme:
the utility model provides an intelligent building public area illumination dimming system based on photoelectricity is complementary, includes power module, sensor module, programmable intelligent control panel, intelligent lighting controller, network module, intelligent dimming module, terminal equipment and LED banks, power module does sensor module, programmable intelligent control panel, intelligent lighting controller, network module and LED banks power supply, sensor module distributes in bathroom, corridor, stairwell and the hall of all floors of intelligent building, includes 1~ n layers bathroom illuminance, humiture and human response sensor group, 1~ n layers corridor illuminance, humiture and human response sensor group, 1~ n layers stairwell illuminance, humiture and human response sensor group and 1~ n layers illuminance, hall and human response sensor group, the illuminance sensor group of 1 st floor to nth layer illuminance, The intelligent lighting controller comprises a 1 st to n-th layer corridor illumination, a temperature and humidity and human body induction sensor group, a 1 st to n-th layer staircase illumination, a temperature and humidity and human body induction sensor group and a 1 st to n-th layer hall illumination, a temperature and humidity and human body induction sensor group which are respectively connected with the intelligent lighting controller through RS485 communication, a programmable intelligent control panel is electrically connected with the intelligent lighting controller, the output of the intelligent lighting controller is respectively and electrically connected with a network module and an intelligent dimming module, the network module is respectively and electrically connected with terminal equipment, the LED lamp group comprises a 1 st to n-th layer toilet lamp group, a 1 st to n-th layer corridor lamp group, a 1 st to n-th layer staircase lamp group and a 1 st to n-th layer hall lamp group, the intelligent dimming module receives signals of the intelligent lighting controller and then outputs 1 st to n-th layer toilet switching signals and brightness signals to control the switching of LED lamps in the 1 st to n-layer toilet lamp group and regulate the brightness, the intelligent light-adjusting module receives signals of the intelligent lighting controller and then outputs 1 st to n layers of corridor switch signals and brightness signals to control the switch of the LED lamps in the 1 st to n layers of corridor lamp groups and adjust the brightness, the intelligent light-adjusting module receives signals of the intelligent lighting controller and then outputs 1 st to n layers of staircase switch signals and brightness signals to control the switch of the LED lamps in the 1 st to n layers of staircase lamp groups and adjust the brightness, and the intelligent light-adjusting module receives signals of the intelligent lighting controller and then outputs 1 st to n layers of hall switch signals and brightness signals to control the switch of the LED lamps in the 1 st to n layers of hall lamp groups and adjust the brightness.
Furthermore, the 1 st to n th-layer toilet illuminance, temperature and humidity and human body induction sensor groups comprise illuminance sensor groups from the 1 st to the n th-layer toilets, air temperature and humidity sensor groups from the 1 st to the n th-layer toilets and human body induction sensor groups from the 1 st to the n th-layer toilets.
Furthermore, the 1 st to n th layers of corridor illuminance, temperature and humidity and human body induction sensor groups comprise illuminance sensor groups from the 1 st to the n th layers of corridors, air temperature and humidity sensor groups from the 1 st to the n th layers of corridors and human body induction sensor groups from the 1 st to the n th layers of corridors.
Furthermore, the illuminance, temperature and humidity and human body induction sensor group for the 1 st-n th-layer stairwell comprises an illuminance sensor group for the 1 st-n th-layer stairwell, an air temperature and humidity sensor group for the 1 st-n th-layer stairwell and a human body induction sensor group for the 1 st-n th-layer stairwell.
Furthermore, the sensor groups for illuminance, temperature and humidity and human body induction of the 1 st to nth lobby comprise sensor groups for illuminance, temperature and humidity of the 1 st to nth lobby and sensor groups for human body induction of the 1 st to nth lobby.
Further, the intelligent building system further comprises Hall LCD screens arranged at 1 st to nth floors of the intelligent building, wherein the Hall LCD screens at the 1 st to nth floors are electrically connected with the network module.
Further, the power supply module is complementary power supply of photoelectricity, including commercial power module, power switch and photovoltaic power supply module, photovoltaic power supply module includes photovoltaic cell array, the module of charging, battery, rectifier and dc-to-ac converter, photovoltaic cell array is connected with the module electricity of charging, the module of charging exports the direct current after being connected with the battery electricity, export the alternating current after the battery is connected with the dc-to-ac converter electricity.
Further, the 1 st ~ n layer bathroom banks, the 1 st ~ n layer corridor banks, the 1 st ~ n layer stairway banks and the 1 st ~ n layer hall banks can select LED down lamp, LED lamp area and LED fluorescent tube as required.
Furthermore, the model of the programmable intelligent control panel is ZY-ASLM, the model of the intelligent lighting controller is ZY-1216, the model of the network module is ZY-GPRS, and the model of the intelligent light modulation module is ZY-0401 TG. The intelligent lighting controller of ZY-1216 model can be used for wireless control, and can support access of mobile phone, computer, tablet and other devices, and can form a local area network with each bottom layer device, and each device can perform wireless communication and control between networks.
The dimming system adopts a complementary power supply mode of commercial power and solar photovoltaic power generation, and when sunlight is sufficient in daytime, the photovoltaic power generation is separated from a commercial power network, and the solar photovoltaic power supply system is directly utilized for supplying power. When sunshine is insufficient, at night and in rainy days, the power supply switcher automatically switches to the commercial power network to supply power to the sensor module, the programmable intelligent control panel, the intelligent lighting controller, the network module and the LED lamp bank in the building, so that the reliability and the durability of power consumption in the public area of the building are ensured.
The public area is an area which is used most frequently except office areas and resident residences in buildings and comprises toilets, staircases, elevator halls, corridors, halls and the like, wherein the lighting equipment in the toilets, the staircases and the elevator halls does not need to be in an on state all the time, and the lighting equipment is automatically controlled to be turned on when people arrive at the corresponding area, so that the public area can adopt an intelligent dimming module to control the on and off of the lighting equipment in the areas and control the brightness of lighting lamps, for example, the brightness of the staircases is high so as to clearly light a road in front, the brightness of the toilets is low, light rays are relatively dim, and the lighting module is adopted to control the light color of LED lamps in the toilets so as to create relatively mild environmental atmosphere.
The utility model has the following beneficial effects:
1. the intelligent LED lamp system has the advantages that light can be adjusted in different areas according to actual requirements through the layout of sensors in each floor and each area, for example, the effect that people turn on the lamp and turn off the lamp without people can be realized through a human body induction sensor group, the air temperature and humidity sensors detect air temperature and humidity to judge seasons and weather, the illuminance sensor judges the hour, the programmable intelligent panel is used for setting light adjusting references of different seasons and different hours to each area of the floor, and finally, the energy-saving illumination of LED lamps in each area of the intelligent building is realized;
2. the dimming system adopts a photoelectric complementary power supply mode, can better meet the control requirement of an intelligent building LED lighting system, is low-carbon and environment-friendly on the one hand, and improves the working reliability of the lighting system on the other hand.
Drawings
FIG. 1 is a block diagram of the present invention;
fig. 2 is a schematic diagram of a photoelectric complementary power supply module.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived from the embodiments of the present invention by a person skilled in the art without any creative effort, should be included in the protection scope of the present invention.
An intelligent building public area illumination dimming system based on photoelectric complementation is shown in figure 1 and comprises a power supply module, a sensor module, a programmable intelligent control panel, an intelligent illumination controller, a network module, an intelligent dimming module, terminal equipment and an LED lamp set, wherein the power supply module supplies power to the sensor module, the programmable intelligent control panel, the intelligent illumination controller, the network module and the LED lamp set, the sensor module is distributed in toilets, corridors, staircases and halls of all floors of an intelligent building and comprises 1-n layers of toilet illumination, temperature and humidity and human body induction sensor sets, 1-n layers of corridor illumination, temperature and humidity and human body induction sensor sets, 1-n layers of staircases illumination, temperature and humidity and human body induction sensor sets and 1-n layers of hall illumination, temperature and humidity and human body induction sensor sets, the intelligent lighting control system is characterized in that the illuminance sensor group from the 1 st layer to the nth layer, the corridor illuminance sensors from the 1 st layer to the nth layer, the temperature and humidity and human body induction sensor group, the staircase illuminance sensors from the 1 st layer to the nth layer, the temperature and humidity and human body induction sensor group and the hall illuminance sensors from the 1 st layer to the nth layer, the temperature and humidity and human body induction sensor group are respectively communicated with the intelligent lighting controller through RS485, the programmable intelligent control panel is electrically connected with the intelligent lighting controller, the output of the intelligent lighting controller is respectively electrically connected with the network module and the intelligent dimming module, the network module is respectively electrically connected with the terminal device, the LED lamp group comprises a toilet lamp group from the 1 st layer to the nth layer, a corridor lamp group from the 1 st layer to the nth layer, a staircase lamp group from the 1 st layer to the nth layer and a hall lamp group from the 1 st to the nth layer, the intelligent dimming module receives a signal of the intelligent lighting controller and then outputs a switch signal and a brightness signal of the toilet switch signal to control the LED lamps in the 1 st to the nth layer toilet lamp group and adjust the switch Luminance, the switch and the regulation luminance of LED lamp among the intelligent light adjusting module output 1~ n layer corridor switch signal and luminance signal control 1~ n layer corridor banks after receiving intelligent lighting controller's signal, the switch and the regulation luminance of LED lamp among the intelligent light adjusting module output 1~ n layer staircase switch signal and luminance signal control 1~ n layer staircase banks after receiving intelligent lighting controller's signal, the switch and the regulation luminance of LED lamp among the intelligent light adjusting module output 1~ n layer hall switch signal and luminance signal control 1~ n layer hall banks after receiving intelligent lighting controller's signal.
The 1 st to n th-layer toilet illuminance, temperature and humidity and human body induction sensor groups comprise illuminance sensor groups from the 1 st to the n th-layer toilets, air temperature and humidity sensor groups from the 1 st to the n th-layer toilets and human body induction sensor groups from the 1 st to the n th-layer toilets.
The 1 st to n th layers of corridor illuminance, temperature and humidity and human body induction sensor groups comprise illuminance sensor groups from the 1 st to the n th layers of corridors, air temperature and humidity sensor groups from the 1 st to the n th layers of corridors and human body induction sensor groups from the 1 st to the n th layers of corridors.
The 1 st-n layers of staircase illuminance, temperature and humidity and human body induction sensor groups comprise illuminance sensor groups from the 1 st layer to the nth layer of staircase, air temperature and humidity sensor groups from the 1 st layer to the nth layer of staircase and human body induction sensor groups from the 1 st layer to the nth layer of staircase.
The sensor groups for illuminance, temperature and humidity and human body induction of the 1 st to the nth lobby comprise illuminance sensor groups of the 1 st to the nth lobby, air temperature and humidity sensor groups of the 1 st to the nth lobby and human body induction sensor groups of the 1 st to the nth lobby.
The intelligent building system is characterized by further comprising Hall LCD screens arranged at 1 st to nth floors of intelligent building halls, wherein the Hall LCD screens arranged at the 1 st to nth floors are electrically connected with the network module.
As shown in fig. 2, the power supply module supplies power for photoelectric complementation, and includes a commercial power module, a power supply switcher and a photovoltaic power supply module, the photovoltaic power supply module includes a photovoltaic cell array, a charging module, a storage battery, a rectifier and an inverter, the photovoltaic cell array is electrically connected with the charging module, the charging module outputs direct current after being electrically connected with the storage battery, and the storage battery outputs alternating current after being electrically connected with the inverter.
The 1 st ~ n layer bathroom banks, 1 st ~ n layer corridor banks, 1 st ~ n layer stairway banks and 1 st ~ n layer hall banks can select LED down lamp, LED lamp area and LED fluorescent tube as required.
The model of the programmable intelligent control panel is ZY-ASLM, the model of the intelligent lighting controller is ZY-1216, the model of the network module is ZY-GPRS, and the model of the intelligent light modulation module is ZY-0401 TG. The intelligent lighting controller of ZY-1216 model can be used for wireless control, and can support access of mobile phone, computer, tablet and other devices, and can form a local area network with each bottom layer device, and each device can perform wireless communication and control between networks.
The dimming system adopts a complementary power supply mode of commercial power and solar photovoltaic power generation, and when sunlight is sufficient in daytime, the photovoltaic power generation is separated from a commercial power network, and the solar photovoltaic power supply system is directly utilized for supplying power. When sunshine is insufficient, at night and in rainy days, the power supply switcher automatically switches to the commercial power network to supply power to the sensor module, the programmable intelligent control panel, the intelligent lighting controller, the network module and the LED lamp bank in the building, so that the reliability and the durability of power consumption in the public area of the building are ensured.
The public area is an area which is used most frequently except office areas and resident residences in buildings and comprises toilets, staircases, elevator halls, corridors, halls and the like, wherein the lighting equipment in the toilets, the staircases and the elevator halls does not need to be in an on state all the time, and the lighting equipment is automatically controlled to be turned on when people arrive at the corresponding area, so that the public area can adopt an intelligent dimming module to control the on and off of the lighting equipment in the areas and control the brightness of lighting lamps, for example, the brightness of the staircases is high so as to clearly light a road in front, the brightness of the toilets is low, light rays are relatively dim, and the light color of an LED lamp in the toilets can be controlled by adopting a soft lighting dimming module so as to create a relatively mild environmental atmosphere.
Claims (9)
1. An intelligent building public area illumination dimming system based on photoelectric complementation comprises a power supply module, a sensor module, a programmable intelligent control panel, an intelligent illumination controller, a network module, an intelligent dimming module, terminal equipment and an LED lamp group, and is characterized in that the power supply module supplies power to the sensor module, the programmable intelligent control panel, the intelligent illumination controller, the network module and the LED lamp group, the sensor module is distributed in toilets, corridors, staircases and halls of all floors of an intelligent building and comprises 1-n layers of toilet illumination, temperature and humidity and human body induction sensor groups, 1-n layers of corridor illumination, temperature and humidity and human body induction sensor groups, 1-n layers of staircases illumination, temperature and humidity and human body induction sensor groups and 1-n layers of hall illumination, temperature and humidity and human body induction sensor groups, the intelligent lighting control system is characterized in that the illuminance sensor group from the 1 st layer to the nth layer, the corridor illuminance sensors from the 1 st layer to the nth layer, the temperature and humidity and human body induction sensor group, the staircase illuminance sensors from the 1 st layer to the nth layer, the temperature and humidity and human body induction sensor group and the hall illuminance sensors from the 1 st layer to the nth layer, the temperature and humidity and human body induction sensor group are respectively communicated with the intelligent lighting controller through RS485, the programmable intelligent control panel is electrically connected with the intelligent lighting controller, the output of the intelligent lighting controller is respectively electrically connected with the network module and the intelligent dimming module, the network module is respectively electrically connected with the terminal device, the LED lamp group comprises a toilet lamp group from the 1 st layer to the nth layer, a corridor lamp group from the 1 st layer to the nth layer, a staircase lamp group from the 1 st layer to the nth layer and a hall lamp group from the 1 st to the nth layer, the intelligent dimming module receives a signal of the intelligent lighting controller and then outputs a switch signal and a brightness signal of the toilet switch signal to control the LED lamps in the 1 st to the nth layer toilet lamp group and adjust the switch Luminance, the switch and the regulation luminance of LED lamp among the intelligent light adjusting module output 1~ n layer corridor switch signal and luminance signal control 1~ n layer corridor banks after receiving intelligent lighting controller's signal, the switch and the regulation luminance of LED lamp among the intelligent light adjusting module output 1~ n layer staircase switch signal and luminance signal control 1~ n layer staircase banks after receiving intelligent lighting controller's signal, the switch and the regulation luminance of LED lamp among the intelligent light adjusting module output 1~ n layer hall switch signal and luminance signal control 1~ n layer hall banks after receiving intelligent lighting controller's signal.
2. An intelligent building public area lighting dimming system based on photoelectric complementation as claimed in claim 1, wherein the 1 st to nth toilet illuminance, temperature, humidity and human body sensing sensor groups comprise an illuminance sensor group between the 1 st to nth toilet, an air temperature and humidity sensor group between the 1 st to nth toilet and a human body sensing sensor group between the 1 st to nth toilet.
3. The intelligent building public area lighting dimming system based on photoelectric complementation as claimed in claim 2, wherein the 1 st to n th layers of corridor lighting, temperature, humidity and human body sensing sensor groups comprise a lighting sensor group of 1 st to n th layers of corridors, an air temperature and humidity sensor group of 1 st to n th layers of corridors and a human body sensing sensor group of 1 st to n th layers of corridors.
4. An intelligent building public area lighting dimming system based on photoelectric complementation as claimed in claim 3, wherein the 1 st to nth stairwell illuminance, temperature, humidity and human body sensing sensor sets comprise an illuminance sensor set for a stairwell from the 1 st to nth stairwell, an air temperature and humidity sensor set for a stairwell from the 1 st to nth stairwell and a human body sensing sensor set for a stairwell from the 1 st to nth stairwell.
5. An intelligent building public area lighting dimming system based on photoelectric complementation as claimed in claim 4, wherein the 1 st to nth hall illuminance, temperature, humidity and human body sensing sensor groups comprise an illuminance sensor group of a 1 st to nth hall, an air temperature and humidity sensor group of a 1 st to nth hall and a human body sensing sensor group of a 1 st to nth hall.
6. An intelligent building public area lighting dimming system based on photoelectric complementation as claimed in claim 5, further comprising Hall LCD screens arranged at 1 st to nth floors of the intelligent building, wherein the Hall LCD screens at 1 st to nth floors are electrically connected with the network module.
7. The intelligent building public area illumination dimming system based on photoelectric complementation as claimed in claim 6, wherein the power supply module supplies power for photoelectric complementation and comprises a mains supply module, a power supply switcher and a photovoltaic power supply module, the photovoltaic power supply module comprises a photovoltaic cell array, a charging module, a storage battery, a rectifier and an inverter, the photovoltaic cell array is electrically connected with the charging module, the charging module outputs direct current after being electrically connected with the storage battery, and the storage battery outputs alternating current after being electrically connected with the inverter.
8. An intelligent building public area illumination dimming system based on photoelectric complementation as claimed in claim 7, wherein the 1 st to n layers of toilet lamp sets, the 1 st to n layers of corridor lamp sets, the 1 st to n layers of stairway lamp sets and the 1 st to n layers of hall lamp sets can be selected from LED down lamps, LED lamp strips and LED lamp tubes according to requirements.
9. The intelligent building public area lighting dimming system based on photoelectric complementation as claimed in claim 8, wherein the programmable intelligent control panel model is ZY-ASLM, the intelligent lighting controller model is ZY-1216, the network module model is ZY-GPRS, and the intelligent dimming module model is ZY-0401 TG.
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