RU2068915C1 - Method for submerging prismatic piles in firm ground nearby existing structures - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: leader well is formed by pressing and withdrawing the leader of prismatic shape to submerge piles nearby existing buildings. The prismatic leader is given with a revolving oscillations. Prismatic pile under the action of revolving oscillations is submerged into the originated well. EFFECT: increased productivity, decreased labour consumption. 4 dwg

Description

 The invention relates to the field of construction and can be used in the construction of pile foundations, including near existing structures.

 A known method of forming a leader well, according to which the leader pipe is immersed in the ground under the action of longitudinal shock pulses of a vibratory hammer and rotation in a horizontal plane by a power mechanism / 1 /.

 The disadvantage of this method is the significant dynamic effects that occur due to shock transmitted to the ground through the leader. Such impacts are very dangerous, since they cause significant and, as a rule, unpredictable settlement of buildings, which makes it impossible to carry out work in the immediate vicinity of existing structures. In addition to the above, the known method involves the immersion of elements only of circular cross section, which significantly limits its scope.

 The present invention can significantly reduce dynamic loads and thereby carry out work near existing buildings and structures.

 The essence of the invention lies in the fact that in the method of immersing prismatic piles in dense soils near existing structures, including the formation of a leader well by indentation with rotation of the leader and subsequent immersion of piles into it, the formation of the well is carried out by the leader of a prismatic shape, while the cross-sectional area of the well corresponds to the area the cross section of the pile, which is pressed under the action of rotational vibrations.

 In FIG. 1 shows the installation of a prismatic shape closed from the bottom of the leader in a rotary vibrator driver headband; in FIG. 2 indentation of the leader under the influence of static force and rotational vibrations; in FIG. 3 - leader extraction during rotational vibrations; in FIG. 4 indentation of a prismatic pile into a leader well during rotational vibrations.

 Equipment for immersion of prismatic piles includes a leader of a prismatic form 1, a crane 2 with a jib boom and a static indentation system made, for example, in the form of a pulley 4. On the jib boom 3 there is a rotary vibrator 5, which can be moved along the jib boom and rotated in horizontal plane. The vibrator has a headgear 6 for clamping the leader 1 or pile 7 (Fig. 4). The vibration exciter is mounted on the hook suspension of the crane 8, and the lifting and installation of the leader or piles is carried out using an additional hook suspension of the crane 9.

 The method of immersion of prismatic piles is as follows.

 The leader of the prismatic form 1 (Fig. 2) is pulled using a hook suspension 9 to the headrest 6 of the vibrator 5, clamped and immersed under the action of the static force transmitted from the chain hoist 4 (Fig. 2), and rotational vibrations from the vibration exciter 5. Application of this the combination of loads on the leader makes it possible to reduce the resistance to immersion without transferring dynamic loads to the surrounding soil and the size of the weight of the crane becomes enough for the immersion operation.

 After immersing the leader 1 at the design elevation, he is removed (Fig. 3) by applying static force from the hook suspension 8 and rotational vibrations from the vibration exciter 5, as a result of which a well remains in the soil, the cross-sectional area of which corresponds to the cross-sectional area of the pile that needs to be loaded. The leader 1 is replaced by a prismatic pile 7 and with the help of rotational vibrations immerse it in the leader well (figure 4).

 Thus, the proposed method makes it possible, by reducing the force of static indentation, to immerse a prismatic pile in dense soil without transmitting dynamic influences, and therefore, to carry out work near existing structures. YYY1 YYY2 YYY3

Claims (1)

 A method of immersing prismatic piles in dense soils near existing structures, including the formation of a leader well by indentation with rotation of the leader and subsequent immersion of piles into it, characterized in that the formation of the well is carried out by the leader of the prismatic shape, while the cross-sectional area of the well corresponds to the cross-sectional area of the immersed pile which is pressed under the action of rotational vibrations.

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