RU112913U1 - BORED INJECTION COMPENSATION PIL - Google Patents

Abstract

Bored compensation pile, made in a well filled with fine-grained concrete, including a reinforcing cage consisting of longitudinal reinforcing bars covered with transverse reinforcement, characterized in that outside of the transverse reinforcement, injector pipes are installed close to the lateral surface of the well, each of them has injection holes with rubber cuffs, a packer with a seal and a bottom plug, in addition, injection holes of injector pipes are oriented towards the foundations of neighboring buildings and structures.

Description

The utility model relates to construction and can be used in the construction of foundations and to strengthen the existing foundations of buildings and structures in industrial and civil construction.

Known injection piles 1, made in the leader well, filled with cement mortar, including a reinforcing cage, consisting of longitudinal reinforcing bars covered by transverse spiral or ring reinforcement, which is attached to the longitudinal bars by welding or viscous. This pile is arranged as follows: first, the leader well is drilled to a predetermined depth, it is filled with concrete mix, and at the same time, the concrete mixture is pressed in the well with an excess pressure of 0.2-0.3 MPa. Then, a reinforcing cage is inserted into the well with the pressed concrete mixture. The disadvantage of this design of injection piles is its low quality due to the inability to perform additional (secondary) crimping of the concrete mixture after installing the reinforcing cage in the well. This leads to additional technological deposits of reinforced and neighboring foundations as a result of a decrease (relaxation) of natural stresses in the soil due to well drilling.

The technical task of the utility model is to achieve the non-stopness of neighboring buildings and to improve the quality of the injection compensation piles.

The problem is solved in that in a drilling pile made in a well filled with fine-grained concrete, including a reinforcing cage, consisting of longitudinal reinforcing bars covered by transverse spiral or ring reinforcement, which is attached to the longitudinal bars by welding or viscous, according to a utility model, instead of several longitudinal reinforcing bars are installed outside of the transverse reinforcement, close to the side surface of the well, injection pipes, each of which has injection holes Stia rubber cuffs packer with seal, and a lower cap, besides injecting holes pipe-injectors are oriented in a direction adjacent to the foundations of buildings and structures.

The technical solution is illustrated by the drawing, where Fig. 1 shows a diagram of a compensation injection pile, in Fig. 2 - node A, in Fig. 3, section B-B.

The compensation injection pile 1, made in a well filled with fine-grained concrete, consists of longitudinal reinforcing rods 2 covered by transverse reinforcement 3. The transverse reinforcement 3 can be spiral or annular and attached to the longitudinal rods 2 by welding or viscous. Outside of the transverse reinforcement 3, close to the surface of the well, injector pipes 4 are installed, each of which has injection holes 5 with rubber cuffs 6, a packer with a seal 7 and a lower plug 8. The injection pipes 4 are installed so that the injection holes 5 are oriented towards the foundations of 9 neighboring buildings and structures, the foundations of which are subject to compensatory injection.

Brown injection compensation pile 1 operates as follows. First, they drill a well in the ground near the existing foundations of buildings and structures. At the same time, there is a softening of the soil of the base of the existing foundations of buildings and structures as a result of stress relaxation, which in turn can cause technological settlement and deformation of the building. In order to prevent this from happening, longitudinal reinforcing bars 2 are installed in the well, they are covered by transverse reinforcement 3, and the well is filled with fine-grained concrete with primary pressure testing under a pressure of 0.2-0.3 MPa. But this may not be enough to fully compensate for the drop (relaxation) of stresses under the foundation due to the selection of soil near it when drilling a well for a pile. In order to more fully compensate for the voltage drop, the injector pipes 4 are installed in the well for additional pressure testing of the soil under the foundation by re-injecting the cement mortar through the injectors 4 with a pressure exceeding the pressure of the primary pressure testing. For more efficient crimping, the injection holes 5 in the injector pipes 4 are oriented towards the foundations 9. The cement mortar emerging under pressure from the injection holes 5 forms proppant fractures in the soil, the stresses of which compress the soil and compensate for the drop (relaxation) of stresses in the soil that occurred as a result of drilling a well and installing a compensation injection well. Due to the presence of 4 rubber cuffs in the injector pipes 6, compensatory injection cycles can be performed several times until the complete absence of technological precipitation of the foundations.

Information sources:

1. Patent of Russia No. 2148124, cl. E02D 5/46, 2000.

Claims (1)

A compensation injection pile made in a well filled with fine-grained concrete, including a reinforcing cage, consisting of longitudinal reinforcing bars covered by transverse reinforcement, characterized in that pipe injectors are installed outside the transverse reinforcement close to the side surface of the well, each of them has injection holes with rubber cuffs, a packer with a sealant and a bottom plug, in addition, the injection holes of the injection pipes are oriented towards the foundation m of neighboring buildings and structures.