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A platform for research: civil engineering, architecture and urbanism
The method is applied to a buffering device, the buffering device comprises an inserting rod structure and a buffering structure, the buffering structure comprises a rotating sleeve part and a buffering elastic part, the inserting rod structure is rotationally sleeved with the rotating sleeve part, and the buffering elastic part is arranged between the inserting rod structure and the rotating sleeve part; the interception deceleration energy dissipation method specifically comprises the following steps that S100, the normal stress sigma t borne by the buffer device is calculated according to a formula; wherein Ftl is the bending moment borne by the buffer device; s200, according to the normal stress, the steel bar grade selected by the inserting rod structure is adjusted, and a buffering device is prepared; s300, the insertion rod structure of the buffer device is inserted into the slope surface of the mountain, and the insertion rod structure is obliquely arranged upwards; wherein at least two buffering devices are adopted, and the two buffering devices are oppositely and obliquely arranged. By the adoption of the interception deceleration energy dissipation method, the buffer device is convenient to install and long in service life.
本发明公开了一种高陡岩质边坡落石的拦截减速消能方法,应用于缓冲装置,缓冲装置包括插杆结构与缓冲结构,缓冲结构包括旋转套件与缓冲弹性件,旋转套件转动套接于插杆结构,缓冲弹性件设置于插杆结构与旋转套件之间;拦截减速消能方法具体包括如下步骤:S100根据公式计算缓冲装置受到的正应力σt;其中,Ftl为缓冲装置受到的弯矩;S200根据正应力调整插杆结构选用的钢筋等级,并制备缓冲装置;S300将缓冲装置的插杆结构插接于山体的坡面,并向上倾斜设置;其中,至少采用两个缓冲装置,两个缓冲装置相向倾斜设置。采用上述的拦截减速消能方法,缓冲装置安装较方便,且具有较好的寿命。
The method is applied to a buffering device, the buffering device comprises an inserting rod structure and a buffering structure, the buffering structure comprises a rotating sleeve part and a buffering elastic part, the inserting rod structure is rotationally sleeved with the rotating sleeve part, and the buffering elastic part is arranged between the inserting rod structure and the rotating sleeve part; the interception deceleration energy dissipation method specifically comprises the following steps that S100, the normal stress sigma t borne by the buffer device is calculated according to a formula; wherein Ftl is the bending moment borne by the buffer device; s200, according to the normal stress, the steel bar grade selected by the inserting rod structure is adjusted, and a buffering device is prepared; s300, the insertion rod structure of the buffer device is inserted into the slope surface of the mountain, and the insertion rod structure is obliquely arranged upwards; wherein at least two buffering devices are adopted, and the two buffering devices are oppositely and obliquely arranged. By the adoption of the interception deceleration energy dissipation method, the buffer device is convenient to install and long in service life.
本发明公开了一种高陡岩质边坡落石的拦截减速消能方法,应用于缓冲装置,缓冲装置包括插杆结构与缓冲结构,缓冲结构包括旋转套件与缓冲弹性件,旋转套件转动套接于插杆结构,缓冲弹性件设置于插杆结构与旋转套件之间;拦截减速消能方法具体包括如下步骤:S100根据公式计算缓冲装置受到的正应力σt;其中,Ftl为缓冲装置受到的弯矩;S200根据正应力调整插杆结构选用的钢筋等级,并制备缓冲装置;S300将缓冲装置的插杆结构插接于山体的坡面,并向上倾斜设置;其中,至少采用两个缓冲装置,两个缓冲装置相向倾斜设置。采用上述的拦截减速消能方法,缓冲装置安装较方便,且具有较好的寿命。
Interception, speed reduction and energy dissipation method for falling rocks on high and steep rock slope
一种高陡岩质边坡落石的拦截减速消能方法
2023-01-06
Patent
Electronic Resource
Chinese
IPC:
E01F
ADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
,
Zusätzliche Baumaßnahmen, wie die Ausstattung von Straßen oder die bauliche Ausbildung von Bahnsteigen, Landeplätzen für Hubschrauber, Wegweisern, Schneezäunen oder dgl.
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