A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention discloses a super high-rise pumping concrete constant-pressure pumping method which comprises the steps that a concrete feeder is arranged on the ground, and a conveying pipe and a grouting hose are sequentially connected to the concrete feeder so that the grouting hose can extend to the corresponding position of a high-rise building; starting a power assembly, a pressure sensor and a speed sensor on the electromagnetic shaftless pump-push supercharging device, driving the electromagnetic shaftless pump-push supercharging device to rotate through the power assembly, and adjusting the rotating speed of the electromagnetic shaftless pump-push supercharging device by using monitoring data of the pressure sensor and the speed sensor; the length of a conveying pipe between the electromagnetic shaftless pump-pushing supercharging devices is determined, so that concrete is pumped to the corresponding position of the high-rise building through a concrete feeder; wherein the length of the conveying pipe between the electromagnetic shaftless pump pushing supercharging devices needs to be calculated. The method has the advantage that the length of the conveying pipe between the electromagnetic shaftless pump pushing supercharging devices can be calculated and determined when the constant pressure state of the conveying pipe is kept.
本发明公开了一种超高层泵送混凝土恒压泵送方法,包括:将混凝土料机布置在地面上,在混凝土料机上依次连接输送管和注浆软管,以使注浆软管延伸至高层建筑的对应位置处;开启电磁式无轴泵推增压装置上的动力组件、压力传感器和速度传感器,通过动力组件驱动电磁式无轴泵推增压装置转动,利用压力传感器和速度传感器的监测数据调节电磁式无轴泵推增压装置的转速,并确定电磁式无轴泵推增压装置间的输送管长度,以通过混凝土料机将混凝土泵送至高层建筑的对应位置处;其中,需对电磁式无轴泵推增压装置间的输送管长度进行计算。本发明的优点是:可计算确定保持输送管恒压状态时,电磁式无轴泵推增压装置间输送管的长度。
The invention discloses a super high-rise pumping concrete constant-pressure pumping method which comprises the steps that a concrete feeder is arranged on the ground, and a conveying pipe and a grouting hose are sequentially connected to the concrete feeder so that the grouting hose can extend to the corresponding position of a high-rise building; starting a power assembly, a pressure sensor and a speed sensor on the electromagnetic shaftless pump-push supercharging device, driving the electromagnetic shaftless pump-push supercharging device to rotate through the power assembly, and adjusting the rotating speed of the electromagnetic shaftless pump-push supercharging device by using monitoring data of the pressure sensor and the speed sensor; the length of a conveying pipe between the electromagnetic shaftless pump-pushing supercharging devices is determined, so that concrete is pumped to the corresponding position of the high-rise building through a concrete feeder; wherein the length of the conveying pipe between the electromagnetic shaftless pump pushing supercharging devices needs to be calculated. The method has the advantage that the length of the conveying pipe between the electromagnetic shaftless pump pushing supercharging devices can be calculated and determined when the constant pressure state of the conveying pipe is kept.
本发明公开了一种超高层泵送混凝土恒压泵送方法,包括:将混凝土料机布置在地面上,在混凝土料机上依次连接输送管和注浆软管,以使注浆软管延伸至高层建筑的对应位置处;开启电磁式无轴泵推增压装置上的动力组件、压力传感器和速度传感器,通过动力组件驱动电磁式无轴泵推增压装置转动,利用压力传感器和速度传感器的监测数据调节电磁式无轴泵推增压装置的转速,并确定电磁式无轴泵推增压装置间的输送管长度,以通过混凝土料机将混凝土泵送至高层建筑的对应位置处;其中,需对电磁式无轴泵推增压装置间的输送管长度进行计算。本发明的优点是:可计算确定保持输送管恒压状态时,电磁式无轴泵推增压装置间输送管的长度。
Constant-pressure pumping method for super high-rise pumping concrete
一种超高层泵送混凝土恒压泵送方法
ZHAO LU (author)
2024-01-30
Patent
Electronic Resource
Chinese
IPC:
E04G
SCAFFOLDING
,
Baugerüste
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