A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Assembled type building shock absorption structure
The invention relates to an assembled type building shock absorption structure. The structure comprises two oppositely arranged connectors, a main body steel frame arranged between the connectors, a wall body arranged between the connectors, two first shock absorption springs, and two second shock absorption springs, wherein a first slide rod and a second slide rod are arranged on each of the connectors, and a first connecting rod is arranged between the connectors; first sliding rods are arranged on both sides of the main body steel frame, and the other end of the first sliding rods are fixedly connected with the main body steel frame; second sliding rods are arranged on both sides of the wall body, and the other end of the sliding rods are fixedly connected with the wall body; the firstshock absorption springs are sleeved with the first slide rods, and two ends of the first shock absorption springs are against the first sliding rods and the connectors respectively; and the second shock absorption springs are sleeved with the second slide rods, and two ends of the second shock absorption springs are against the connectors and the second sliding rods respectively. According to theshock absorption structure, a multi-level shock absorption structure comprising the shock absorption springs, compression springs and shock absorption rods can effectively weaken a shock and lessen the damage of the shock to a building.
本发明涉及一种装配式建筑减震结构,其包括:两个相对设置的连接件,连接件上设有第一滑杆及第二滑杆,且连接件间设有第一连接杆;设置于连接件间的主体钢架,主体钢架的两侧设有第一滑动杆,第一滑动杆的另一端固定连接于主体钢架上;设置于连接件间的墙体,墙体的两侧设有第二滑动杆,第二滑动杆的另一端固定连接于墙体上;两根第一减震簧,第一减震簧套设于第一滑杆上,且第一减震簧两端分别抵接于第一滑动杆及连接件上;以及两根第二减震簧,第二减震簧套设于第二滑杆上,且第二减震簧的两端分别抵接于连接件及第二滑动杆上。本发明提供的减震结构中利用减震簧、压缩簧及减震杆等多级减震结构对震动进行有效弱化,以减少震动对建筑的伤害。
Assembled type building shock absorption structure
The invention relates to an assembled type building shock absorption structure. The structure comprises two oppositely arranged connectors, a main body steel frame arranged between the connectors, a wall body arranged between the connectors, two first shock absorption springs, and two second shock absorption springs, wherein a first slide rod and a second slide rod are arranged on each of the connectors, and a first connecting rod is arranged between the connectors; first sliding rods are arranged on both sides of the main body steel frame, and the other end of the first sliding rods are fixedly connected with the main body steel frame; second sliding rods are arranged on both sides of the wall body, and the other end of the sliding rods are fixedly connected with the wall body; the firstshock absorption springs are sleeved with the first slide rods, and two ends of the first shock absorption springs are against the first sliding rods and the connectors respectively; and the second shock absorption springs are sleeved with the second slide rods, and two ends of the second shock absorption springs are against the connectors and the second sliding rods respectively. According to theshock absorption structure, a multi-level shock absorption structure comprising the shock absorption springs, compression springs and shock absorption rods can effectively weaken a shock and lessen the damage of the shock to a building.
本发明涉及一种装配式建筑减震结构,其包括:两个相对设置的连接件,连接件上设有第一滑杆及第二滑杆,且连接件间设有第一连接杆;设置于连接件间的主体钢架,主体钢架的两侧设有第一滑动杆,第一滑动杆的另一端固定连接于主体钢架上;设置于连接件间的墙体,墙体的两侧设有第二滑动杆,第二滑动杆的另一端固定连接于墙体上;两根第一减震簧,第一减震簧套设于第一滑杆上,且第一减震簧两端分别抵接于第一滑动杆及连接件上;以及两根第二减震簧,第二减震簧套设于第二滑杆上,且第二减震簧的两端分别抵接于连接件及第二滑动杆上。本发明提供的减震结构中利用减震簧、压缩簧及减震杆等多级减震结构对震动进行有效弱化,以减少震动对建筑的伤害。
Assembled type building shock absorption structure
一种装配式建筑减震结构
ZENG FANLIN (author) / YANG DEPING (author) / FU QIANG (author)
2020-08-11
Patent
Electronic Resource
Chinese
Shock absorption anti-bending type building steel structure support
| European Patent Office | 2020
Shock absorption structure and shock insulation building system
| European Patent Office | 2024
| European Patent Office | 2024
Staged pulling pressing and shearing type building shock absorption structure
| European Patent Office | 2020