Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Dynamic compaction construction vibration monitoring device for building construction and monitoring method thereof
The invention discloses a dynamic compaction construction vibration monitoring device for building construction and a monitoring method thereof. The dynamic compaction construction vibration monitoring device comprises a main body, the main body is placed on the ground, the main body is in a circular ring shape, universal wheels are evenly distributed at the bottom of the main body, a third sliding groove is formed in the outer side of the main body, and a second sliding groove is formed in the top end of the main body; meanwhile, a first fixing block and a second fixing block are welded to the top end of the main body, a third sliding groove penetrates through the outer side of the main body, a trapezoidal groove is formed in the third sliding groove, and the third sliding groove is slidably connected with a movable supporting block. According to the dynamic compaction construction vibration monitoring device for building construction and the monitoring method thereof, a movable supporting block is arranged, a first sliding plate connected with the right side of the movable supporting block through a hexagon screw moves through a spring to push a supporting rod so that a vibration sensing device can be conveniently placed, and the vibration sensing device is fixed through the downwards-pressed supporting rod and prevented from being vibrated out of thesoil body, and the vibration sensing device is rapidly placed through a bottom conical head at the lower end of the vibration sensing device, meanwhile, the universal wheels are arranged at the bottom of the main body and the bottom of the movable supporting block, and the vibration sensing device is conveniently moved through the universal wheels, and the tamping point is positioned through the main body.
本发明公开了一种建筑施工用强夯施工振动监测装置及其监测方法,包括:主体,其放置在地面上,所述主体为圆环形,且主体底部安装有均匀分布的万向轮,并且主体外侧设有三号滑槽,而且主体顶端设有二号滑槽,同时主体顶端焊接连接一号固定块与二号固定块,所述三号滑槽贯通主体外侧,且三号滑槽内部为梯形槽,而且三号滑槽滑动连接活动支撑块。该建筑施工用强夯施工振动监测装置及其监测方法设置有活动支撑块,其右侧使用六角螺钉连接的一号滑板通过弹簧进行移动推动支撑杆方便振感装置的放置,通过下压的支撑杆对振感装置进行固位防止被振出土体,再通过振感装置下端的底锥头达到快速放置振感装置,同时主体、活动支撑块其底部均设有万向轮,通过万向轮来方便振感装置进行移动的同时通过主体对夯点进行定位。
Dynamic compaction construction vibration monitoring device for building construction and monitoring method thereof
The invention discloses a dynamic compaction construction vibration monitoring device for building construction and a monitoring method thereof. The dynamic compaction construction vibration monitoring device comprises a main body, the main body is placed on the ground, the main body is in a circular ring shape, universal wheels are evenly distributed at the bottom of the main body, a third sliding groove is formed in the outer side of the main body, and a second sliding groove is formed in the top end of the main body; meanwhile, a first fixing block and a second fixing block are welded to the top end of the main body, a third sliding groove penetrates through the outer side of the main body, a trapezoidal groove is formed in the third sliding groove, and the third sliding groove is slidably connected with a movable supporting block. According to the dynamic compaction construction vibration monitoring device for building construction and the monitoring method thereof, a movable supporting block is arranged, a first sliding plate connected with the right side of the movable supporting block through a hexagon screw moves through a spring to push a supporting rod so that a vibration sensing device can be conveniently placed, and the vibration sensing device is fixed through the downwards-pressed supporting rod and prevented from being vibrated out of thesoil body, and the vibration sensing device is rapidly placed through a bottom conical head at the lower end of the vibration sensing device, meanwhile, the universal wheels are arranged at the bottom of the main body and the bottom of the movable supporting block, and the vibration sensing device is conveniently moved through the universal wheels, and the tamping point is positioned through the main body.
本发明公开了一种建筑施工用强夯施工振动监测装置及其监测方法,包括:主体,其放置在地面上,所述主体为圆环形,且主体底部安装有均匀分布的万向轮,并且主体外侧设有三号滑槽,而且主体顶端设有二号滑槽,同时主体顶端焊接连接一号固定块与二号固定块,所述三号滑槽贯通主体外侧,且三号滑槽内部为梯形槽,而且三号滑槽滑动连接活动支撑块。该建筑施工用强夯施工振动监测装置及其监测方法设置有活动支撑块,其右侧使用六角螺钉连接的一号滑板通过弹簧进行移动推动支撑杆方便振感装置的放置,通过下压的支撑杆对振感装置进行固位防止被振出土体,再通过振感装置下端的底锥头达到快速放置振感装置,同时主体、活动支撑块其底部均设有万向轮,通过万向轮来方便振感装置进行移动的同时通过主体对夯点进行定位。
Dynamic compaction construction vibration monitoring device for building construction and monitoring method thereof
一种建筑施工用强夯施工振动监测装置及其监测方法
ZHANG YINGMIN (Autor:in)
12.11.2021
Patent
Elektronische Ressource
Chinesisch
IPC:
G01H
MEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES
,
Messen von mechanischen Schwingungen oder Ultraschall-, Schall- oder Infraschallwellen
/
E02D
FOUNDATIONS
,
Gründungen
/
G01C
Messen von Entfernungen, Höhen, Neigungen oder Richtungen
,
MEASURING DISTANCES, LEVELS OR BEARINGS
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