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A platform for research: civil engineering, architecture and urbanism
Automatic crack flaw detection device for bridge concrete guardrail
The invention discloses a bridge concrete guardrail gap automatic flaw detection device which comprises a machine shell, a penetrating cavity penetrating through the front end and the rear end of the machine shell is formed in the machine shell, two symmetrical lifting cavities are formed in the end walls of the left side and the right side of the penetrating cavity, a cleaning mechanism, a detection mechanism and a moving mechanism are arranged in the machine shell, and the cleaning mechanism can clean the detected guardrail; the detection mechanism can detect the guardrail and mark the crack position, the moving mechanism can move the machine shell, cleaning of the surface of the guardrail is achieved through a rotatable cleaning block arranged in the cleaning mechanism, and marking of the crack position is achieved through a rotatable rotating block and a marking block capable of making contact with the surface of the guardrail. Moving wheels which can rotate and make contact with the top ends of the guardrails are arranged in the moving mechanism, so that movement of the machine shell is achieved.
本发明公开了一种桥梁混凝土护栏的缝隙自动探伤装置,包括机壳,机壳内设有贯穿机壳前后端的贯穿腔,贯穿腔左右两侧端壁内设有两个对称的升降腔,机壳内设有清洁机构、检测机构、移动机构,清洁机构能够对检测的护栏进行清洁,检测机构能够对护栏进行检测,并标记裂缝位置,移动机构能够移动机壳,通过清洁机构中设有的能够转动的清洁块,从而实现对护栏表面的清洁,设置了能够旋转的转动块以及能够与护栏表面接触的标记块,从而实现对裂缝位置的标记,通过移动机构中设有的能够转动并与护栏顶端接触的移动轮,从而实现机壳的移动。
Automatic crack flaw detection device for bridge concrete guardrail
The invention discloses a bridge concrete guardrail gap automatic flaw detection device which comprises a machine shell, a penetrating cavity penetrating through the front end and the rear end of the machine shell is formed in the machine shell, two symmetrical lifting cavities are formed in the end walls of the left side and the right side of the penetrating cavity, a cleaning mechanism, a detection mechanism and a moving mechanism are arranged in the machine shell, and the cleaning mechanism can clean the detected guardrail; the detection mechanism can detect the guardrail and mark the crack position, the moving mechanism can move the machine shell, cleaning of the surface of the guardrail is achieved through a rotatable cleaning block arranged in the cleaning mechanism, and marking of the crack position is achieved through a rotatable rotating block and a marking block capable of making contact with the surface of the guardrail. Moving wheels which can rotate and make contact with the top ends of the guardrails are arranged in the moving mechanism, so that movement of the machine shell is achieved.
本发明公开了一种桥梁混凝土护栏的缝隙自动探伤装置,包括机壳,机壳内设有贯穿机壳前后端的贯穿腔,贯穿腔左右两侧端壁内设有两个对称的升降腔,机壳内设有清洁机构、检测机构、移动机构,清洁机构能够对检测的护栏进行清洁,检测机构能够对护栏进行检测,并标记裂缝位置,移动机构能够移动机壳,通过清洁机构中设有的能够转动的清洁块,从而实现对护栏表面的清洁,设置了能够旋转的转动块以及能够与护栏表面接触的标记块,从而实现对裂缝位置的标记,通过移动机构中设有的能够转动并与护栏顶端接触的移动轮,从而实现机壳的移动。
Automatic crack flaw detection device for bridge concrete guardrail
一种桥梁混凝土护栏的缝隙自动探伤装置
FENG XIURONG (author)
2022-03-11
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
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