SU1177435A1 - Method of consrtucting a cast-in-place pile - Google Patents

Abstract

METHOD OF CONSTRUCTION B / RONABLE PILOT, including drilling a hole under the barrel under the protection of the casing, making a cavity under the center, installing a reinforcement cage of the trunk, placing concrete into the cavity of the pile and the well under the trunk and removing the casing, characterized in that To increase the bearing capacity of the pile, prior to drilling a well under the wellbore, a cavity is drilled under the center of the well from the periphery to the center of the pile, successively overlapping one another in terms of groups of wells evenly distributed around the circumference with stepped races Assumption faces of greater depth external wells, additionally installed in the cavity heel reinforcing cage, then concreted after With this smallness.

Description

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The invention relates to the field of construction with predominant use in the construction of foundations in weak, unstable soils and the transfer of the main part of the load on the underlying more durable layer of soil through the fifth.

The purpose of the invention is to increase the bearing capacity of the pile.

Figure 1 shows the pile of the column, if there are five elements in each radial section of the two drilling elements, a vertical section; figure 2 - section aa in figure 1; FIG. 3 shows the technological sequence of the radial section of the fuse; Fig. 4 shows a reinforcement cage for the reinforcement of the joint, a general view; FIG. 3 shows a section of a removable longitudinal partition; figure 6 - section bb in figure 4.

The method of construction of the bored pile is implemented as follows.

In the ground 1, the first peripheral well 2 under the protection of the casing 3 is installed in the ground 1, then the first reinforcement cage 4 of the reinforcement is installed on the back of the drilled well, and then the longitudinal partition 5 is installed in the casing 3 until its bottom contacts with the end face of the reinforcement cage 4, and then the reinforcement cage is filled with concrete to its height, and the upper section of the large volume well is filled with soil with compaction. On the other hand, the partitions, in the area of the well 6, the cavity of the well remains unfilled, but in unstable soils it is filled, for example, with sand.

Next, the casing 3 is removed from the soil and the second well 7 is drilled along the heel radius under the protection of the vent pipe 8 until it contacts the bottom with the end of the reinforcement cage 4 of the first well 2 using the partition 5 of the first well as a guide. At the same time, due to the difference in densities of continental soil and sand (in unstable soils) or the presence of the very emptiness in section 6 (in stable soils), the casing 8 automatically presses against the partition 5 of the first well 2 and slides along its concave section.

In the face of the second well 7, the reinforcement cage of the reinforcement is installed, then the partition 5 is removed,

and in the well 7 install the partition 9 to the contact of its bottom with the end of the reinforcement cage. The operations are repeated. A distinctive feature of the manufacture of the second section of the pit is that the partition 9 after the treatment of the well 7 is not removed, and before installing it, the areas of its surface in contact with the concrete are lubricated with anti-adhesive composition (for example, used for lubricating metal forms in the precast concrete industry). Transition t to the construction of the second, third, etc. radial sections of n m with the repetition of the described operations.

Thus, after the manufacture of the fillet in the ground, an annular tongue-and-groove wall is formed, consisting of partitions of the sections of the fillet adjacent to the future pile shaft.

Next, the well is drilled for the barrel 10 of the pile under the protection of the casing until it contacts its bottom with the ends of the reinforcement cages of the adjacent sections of the pit, the installation of the framework for reinforcing the trunk, concreting the trunk and jointly with partitions removing the casing. Alternately removing the barriers and then the casing or vice versa is not recommended because of the possible contamination of the contact surfaces of the pen and the pile shaft with soil.

In stable soils it is possible to drill a well under the pile shaft without using a casing under the condition that the top partitions are fixed. However, due to the possibility of hooking the working body of the drilling machine for partitions and knocking them out of the design position, this option is not recommended.

For the implementation of the method, a longitudinal partition 5 is used, the distinctive feature of which is that it has a guide part 11 that partially repeats the shape of the subsequent well in plan, and stops 12 that partially repeats the shape of the previous well and the reinforcement cage of reinforcement 5, equipped with a drilling restrictor of a subsequent well 13, made for example, in the form of a segment metal plate horizontally attached to its upper end. The presence of an operation to install the frame 4 of the reinforcement of the pit and its design feature allows it to be used as a drilling restrictor of a subsequent well, Fig. 2 1774354 whereby a reinforced step 14 is formed to transfer the load from the support shaft in succession through heel sections onto 5 soils. FIG.

Claims (1)

METHOD FOR STRUCTURING A BORED PILET, including drilling a well under the bore under the protection of the casing, making the cavity under the heel, installing the reinforcing cage of the trunk, laying concrete in the heel and the well under the bore, and removing the casing, characterized in that, in order to increase the bearing capacity piles, before drilling a well under the trunk, a cavity under the heel is drilled from the periphery to the center of the heel, successively overlapping one another in terms of groups of wells evenly distributed around circle ₅ with a stepwise arrangement By lowering the faces from the greater depth of the external wells, an reinforcing cage is additionally installed in the heel cavity, and then this cavity is concreted. 1,177,435 A 1 1177435