Wireless kinetic switches facilitate the design of electrical lighting systems for super high-rise buildings
The electrical design of super high-rise buildings should be different from general buildings. Therefore, the wireless kinetic switch of EBELONG provides convenience for the design of the electrical lighting system of super high-rise buildings. Designers should consider the characteristics of electrical design of super high-rise buildings, and do a good job of site investigation, grasp the correct design ideas, scientifically deploy the relationship between different systems, reasonably select and design the form of the power distribution system, so as to make the system operate with strong stability and safety, comprehensively improve the effect of electrical design of super high-rise buildings, prolong the service life of equipment, and highlight the advantages of modern building electrical design.
What convenience can the wireless kinetic switch bring to the design of the lighting system of a super high-rise building?
The wireless kinetic switch is developed with micro energy collection, no wiring, no battery, anti-electrical shock, IP67 level waterproof, easy multi-control, simple installation, easy to use, wireless intelligent remote control, easy to retrofit and modify, safe and durable.
The wireless kinetic switch can simplify many processes and make the building more solid, beautiful, energy-saving, environmental protection, safe, easy to use, easy to manage, and intelligent.
EBELONG wireless kinetic switch supports OEM and ODM customization, welcome to cooperate and win-win.
Design of lighting system
The lighting of super high-rise buildings is mainly divided into normal lighting, backup lighting, aviation obstacle lighting, emergency lighting, and evacuation indication lighting.
For normal lighting, the main channel lighting and important office lighting of super high-rise buildings with building heights over 100m should be the primary load and need to meet the requirements of a double power supply. A variety of lighting control methods can be used to combine intelligent lighting with induction end to meet the various control needs of the owner. The intelligent lighting system is controlled by hand-held bus mode, which can be controlled centrally through the central control computer and touch screen for the relevant area lighting and can also set the time through the central control computer to automatically control the corresponding lighting. At the same time, ordinary employees can also be manually controlled through the lighting control box near the digital switch button, or through the module manual control button to control any single circuit lighting. In addition, users can also monitor the operation of each circuit through a computer or touch
Control screen to monitor the working status of each circuit, such as the lighting on, and off state.
Aviation obstacle mark light should be in accordance with the level load double power supply, for the height of more than 100m super-high buildings should be set up in sections, aviation obstacle light horizontal installation spacing is not more than 52m, and vertical installation from the position of 45m above the ground, to not more than 52m distance equal spacing arrangement. For 100 ~ 151m high buildings should be used in the light intensity, for 151m or more buildings should be used with high light intensity.
Super high-rise fire emergency lighting and evacuation indication system should be selected to use centralized control type centralized power supply and its system should be composed of an emergency lighting controller, A-type emergency lighting centralized power supply, A-type fire emergency lighting lamps and lanterns, and A-type fire emergency sign lamps and lanterns. Fire emergency lighting illumination for evacuation aisle not less than 3.01x; stairwell, front room, or shared front room not less than 5.0lx; floor area of more than 400 square meters of office halls, conference rooms, and other crowded places not less than 3.0lx; for crowded places of the stairwell, front room or shared front room, refuge walkway not less than 10.01x; refuge layer exit should be set refuge layer exit Sign light, and should be set double-sided directional sign light pointing to the exit of the refuge layer, set the illumination of emergency lighting fixtures should not be less than 3.0lx; helipad: the ground should be set helipad evacuation lighting, its minimum illumination should not be less than 10.0lx.
The protection of the lighting end can be set in the atrium, lecture halls, and other large spaces of the upper lighting lines fault arc detector. Relevant data show that fire caused by lighting line failure accounts for about 10% of electrical fires. As the top of the atrium is high, if a fire is not easy to find, there is no way to set up other types of detectors on it, only set up with the detection of fault arc function detectors to ensure accurate detection of fire caused by lighting line failure. When the fault arc detector in 1s the fault arc half-wave number greater than 14, the 30s will be alarmed to the relevant duty personnel, so as to prevent fire in the early warning). In addition, the arc fault protection apparatus can also detect the arc fault that is likely to cause fire at the aging of the cable or at the contact connection, and automatically cut off the protected circuit before the flame appears.
For more information about the solution of wireless kinetic switches and lighting systems for super high-rise buildings, welcome to contact us, thank you!