A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Self-driven light-emitting floor, tread detecting floor and passenger flow distribution monitoring system
The invention discloses self-driven light-emitting floor, tread detecting floor and a passenger flow distribution monitoring system. A floor body of the self-driven light-emitting floor comprises a friction nano power generator unit layer and an LED light-emitting layer which are arranged from bottom to top; the friction nano power generator unit layer can be configured to acquire mechanical energy while a passenger/heavy body treads the floor body, and to convert the mechanical energy into electric energy which is provided to the LED light-emitting layer. An energy acquisition and frictionalelectricity pressure detecting element which is composed of a power generator, an energy storage module and a wireless emitting module are mounted on floor, so that the floor can be detected in a treaded mode; and distribution type mounting and rear-end monitoring analysis of floor are combined, so that real-time monitoring on passenger flow distribution of a public area also can be realized. Theself-driven light-emitting floor does not need to externally provide energy, is convenient to mount, is low in cost, and is suitable for public places such as business districts, office buildings, subway stations, airports and railway stations.
本发明公开了一种自驱动发光地板、自驱动踩踏地板及人流量分布监测系统。其中,自驱动发光地板的地板本体包括自下至上布置的摩擦纳米发电机单元层和LED发光层,所述摩擦纳米发电机单元层配置为能够采集所述地板本体上人体/重物踩踏时的机械能并将其转化为电能,提供至所述LED发光层。通过在地板安装由发电机构成的能量采集和摩擦电压力探测元件,能量存储模块以及无线发射模块,可以实现踩踏探测地板,结合地板的分布式安装及后端监测分析,亦可以实现公共区域人流量分布的实时监测。本发明无需外部提供能源,安装方便,成本低廉,适用于商圈、写字楼、地铁站、飞机场、火车站等公共场所。
Self-driven light-emitting floor, tread detecting floor and passenger flow distribution monitoring system
The invention discloses self-driven light-emitting floor, tread detecting floor and a passenger flow distribution monitoring system. A floor body of the self-driven light-emitting floor comprises a friction nano power generator unit layer and an LED light-emitting layer which are arranged from bottom to top; the friction nano power generator unit layer can be configured to acquire mechanical energy while a passenger/heavy body treads the floor body, and to convert the mechanical energy into electric energy which is provided to the LED light-emitting layer. An energy acquisition and frictionalelectricity pressure detecting element which is composed of a power generator, an energy storage module and a wireless emitting module are mounted on floor, so that the floor can be detected in a treaded mode; and distribution type mounting and rear-end monitoring analysis of floor are combined, so that real-time monitoring on passenger flow distribution of a public area also can be realized. Theself-driven light-emitting floor does not need to externally provide energy, is convenient to mount, is low in cost, and is suitable for public places such as business districts, office buildings, subway stations, airports and railway stations.
本发明公开了一种自驱动发光地板、自驱动踩踏地板及人流量分布监测系统。其中,自驱动发光地板的地板本体包括自下至上布置的摩擦纳米发电机单元层和LED发光层,所述摩擦纳米发电机单元层配置为能够采集所述地板本体上人体/重物踩踏时的机械能并将其转化为电能,提供至所述LED发光层。通过在地板安装由发电机构成的能量采集和摩擦电压力探测元件,能量存储模块以及无线发射模块,可以实现踩踏探测地板,结合地板的分布式安装及后端监测分析,亦可以实现公共区域人流量分布的实时监测。本发明无需外部提供能源,安装方便,成本低廉,适用于商圈、写字楼、地铁站、飞机场、火车站等公共场所。
Self-driven light-emitting floor, tread detecting floor and passenger flow distribution monitoring system
自驱动发光地板、踩踏探测地板及人流量分布监测系统
GUO HENGYU (author) / HU CHENGUO (author) / TANG QIAN (author)
2020-06-19
Patent
Electronic Resource
Chinese
FLOOR DISPLACEMENT MONITORING SYSTEM AND FLOOR DISPLACEMENT MONITORING METHOD
| European Patent Office | 2019