A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
According to the building outer wall drainage structure, external water enters the system through the water inlet channel and is subjected to solid-liquid separation at the drainage filtering mechanism, and solid impurities are intercepted. The clean water continues to flow to the drainage channel and impacts the liquid suction mechanism, the liquid suction mechanism is triggered, and the negative pressure is further generated and enhanced. Under the action of negative pressure, even in the presence of solid impurities, more clean water can be effectively sucked into the drainage channel, drainage is accelerated, and efficient drainage is achieved. Even under the condition that solid impurities are obstructed, the system can achieve efficient drainage of water through generation and enhancement of negative pressure, and the problems of water accumulation and unsmooth drainage are effectively avoided. Due to the existence of the drainage filtering mechanism and efficient drainage achieved through negative pressure, the blocking risk caused by solid impurities is reduced through the combined action, and it is guaranteed that a drainage system is unobstructed.
本申请提供了一种建筑外墙排水结构,外来水通过进水通道进入系统,并在排水过滤机构处进行固液分离,拦截固体杂质。清洁的水继续流向排水通道,其流动冲击吸液机构,触发吸液机构的作用,进一步产生并增强负压。通过负压的作用,即使在固体杂质存在的情况下,也能有效地吸引更多的清洁水流进入排水通道,并加速排出,实现高效排水。即便在存在固体杂质阻隔的情况下,该系统也能通过负压的生成和增强,实现水分的高效排出,有效避免积水和排水不畅的问题。排水过滤机构的存在,以及通过负压实现的高效排水,共同作用减少了因固体杂质引起的堵塞风险,保证排水系统的畅通无阻。
According to the building outer wall drainage structure, external water enters the system through the water inlet channel and is subjected to solid-liquid separation at the drainage filtering mechanism, and solid impurities are intercepted. The clean water continues to flow to the drainage channel and impacts the liquid suction mechanism, the liquid suction mechanism is triggered, and the negative pressure is further generated and enhanced. Under the action of negative pressure, even in the presence of solid impurities, more clean water can be effectively sucked into the drainage channel, drainage is accelerated, and efficient drainage is achieved. Even under the condition that solid impurities are obstructed, the system can achieve efficient drainage of water through generation and enhancement of negative pressure, and the problems of water accumulation and unsmooth drainage are effectively avoided. Due to the existence of the drainage filtering mechanism and efficient drainage achieved through negative pressure, the blocking risk caused by solid impurities is reduced through the combined action, and it is guaranteed that a drainage system is unobstructed.
本申请提供了一种建筑外墙排水结构,外来水通过进水通道进入系统,并在排水过滤机构处进行固液分离,拦截固体杂质。清洁的水继续流向排水通道,其流动冲击吸液机构,触发吸液机构的作用,进一步产生并增强负压。通过负压的作用,即使在固体杂质存在的情况下,也能有效地吸引更多的清洁水流进入排水通道,并加速排出,实现高效排水。即便在存在固体杂质阻隔的情况下,该系统也能通过负压的生成和增强,实现水分的高效排出,有效避免积水和排水不畅的问题。排水过滤机构的存在,以及通过负压实现的高效排水,共同作用减少了因固体杂质引起的堵塞风险,保证排水系统的畅通无阻。
Building outer wall drainage structure
建筑外墙排水结构
WANG HUA (author)
2024-07-12
Patent
Electronic Resource
Chinese
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