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A platform for research: civil engineering, architecture and urbanism
Anti-micro-vibration concrete base capable of automatically detecting weights and construction method of anti-micro-vibration concrete base
The invention discloses a weight automatic verification anti-micro-vibration concrete base and a construction method, and relates to the technical field of concrete bases, the weight automatic verification anti-micro-vibration concrete base comprises a base body and a box body, and the top of the box body is provided with a lifting mechanism. According to the weight automatic verification anti-micro-vibration concrete base and the construction method, the weight adding mechanism is driven by the lifting mechanism to directly adjust the height, after the height is adjusted to a proper angle, the electromagnetic adsorption sliding block can directly move towards one side of the adsorption groove sleeve, and the adsorption groove sleeve is directly fixed to the bottom of the adsorption groove sleeve by generating adsorption force; the electromagnetic adsorption sliding block drives the weight body to move towards one side of the limiting guide rod, and after the movable block is clamped in an inner cavity in one side of the limiting guide rod, the adsorption groove sleeve is separated from the electromagnetic adsorption sliding block and directly falls to the top of the base body, so that automatic weight adding is effectively realized, and a weighing task is quickly executed; the time of manual operation is reduced, the working efficiency is improved, and the accuracy of verification is ensured.
本发明公开了一种砝码自动检定防微振混凝土基座及施工方法,涉及混凝土基座技术领域,包括基座本体和箱体,所述箱体的顶部设置有升降机构。该一种砝码自动检定防微振混凝土基座及施工方法,通过升降机构带动加码机构直接进行高度调整,在调整至合适角度后,电磁吸附滑块会直接向吸附槽套一侧移动,通过产生吸附力直接将吸附槽套固定在其底部,电磁吸附滑块便会带动砝码本体向限位导杆一侧移动,活动块卡设在限位导杆一侧的内腔后,吸附槽套会脱离与电磁吸附滑块的连接,从而直接降落到基座本体顶部,从而有效的实现自动加码,实现快速执行称重任务,减少了人工操作的时间,提高了工作效率,保证了检定的精准度。
Anti-micro-vibration concrete base capable of automatically detecting weights and construction method of anti-micro-vibration concrete base
The invention discloses a weight automatic verification anti-micro-vibration concrete base and a construction method, and relates to the technical field of concrete bases, the weight automatic verification anti-micro-vibration concrete base comprises a base body and a box body, and the top of the box body is provided with a lifting mechanism. According to the weight automatic verification anti-micro-vibration concrete base and the construction method, the weight adding mechanism is driven by the lifting mechanism to directly adjust the height, after the height is adjusted to a proper angle, the electromagnetic adsorption sliding block can directly move towards one side of the adsorption groove sleeve, and the adsorption groove sleeve is directly fixed to the bottom of the adsorption groove sleeve by generating adsorption force; the electromagnetic adsorption sliding block drives the weight body to move towards one side of the limiting guide rod, and after the movable block is clamped in an inner cavity in one side of the limiting guide rod, the adsorption groove sleeve is separated from the electromagnetic adsorption sliding block and directly falls to the top of the base body, so that automatic weight adding is effectively realized, and a weighing task is quickly executed; the time of manual operation is reduced, the working efficiency is improved, and the accuracy of verification is ensured.
本发明公开了一种砝码自动检定防微振混凝土基座及施工方法,涉及混凝土基座技术领域,包括基座本体和箱体,所述箱体的顶部设置有升降机构。该一种砝码自动检定防微振混凝土基座及施工方法,通过升降机构带动加码机构直接进行高度调整,在调整至合适角度后,电磁吸附滑块会直接向吸附槽套一侧移动,通过产生吸附力直接将吸附槽套固定在其底部,电磁吸附滑块便会带动砝码本体向限位导杆一侧移动,活动块卡设在限位导杆一侧的内腔后,吸附槽套会脱离与电磁吸附滑块的连接,从而直接降落到基座本体顶部,从而有效的实现自动加码,实现快速执行称重任务,减少了人工操作的时间,提高了工作效率,保证了检定的精准度。
Anti-micro-vibration concrete base capable of automatically detecting weights and construction method of anti-micro-vibration concrete base
一种砝码自动检定防微振混凝土基座及施工方法
WANG SHUCHENG (author) / WANG LIANFANG (author) / HU SHUNJIE (author) / ZHANG YAN (author) / XIAO FANGYUAN (author) / WANG WENLONG (author)
2024-10-01
Patent
Electronic Resource
Chinese
Construction structure and construction method of hinged anti-micro-vibration concrete filling wall
| European Patent Office | 2023
| European Patent Office | 2023