RU107533U1 - SELF-CENTERING MODULAR PILES WITH A JOINT OF A GLASSED TYPE AND HEADREST FOR SUCH PILES - Google Patents

Abstract

 1. Self-centering modular pile with a junction of a glass type, including a cylindrical tubular glass covering the joined ends of the pile modules, characterized in that the joined ends of the pile modules are made in the form of paired hemispherical surfaces in the form of a recess and a protrusion, respectively, and the radius of the recess is made larger than the radius of the protrusion by 2-5%. ! 2. The headgear for the self-centering pile according to claim 1, the lower part of which has a shape identical to the shape of the protrusion of the end face of the pile module.

Description

The utility model relates to the field of construction, in particular, to butt joints of prefabricated reinforced concrete structures, namely to self-centering modular piles and headrests for such piles.

A butt joint of sections of a composite reinforced concrete pile is known, including a conical cup expanding toward the end face formed in one of the joined sections, into which a protrusion formed in the end face of the other section in the form of a truncated cone. The latter is equipped with an internal holder made in the form of a hollow truncated cone of malleable metal. A protrusion in the form of a truncated cone with an outer lining of solid impact-resistant material is formed at the end face of another section of the composite pile [a.s. SU 1608296, 1990, E02D 5/52]. A disadvantage of the known butt joints is the complexity of manufacturing.

A butt joint of sections of a driven pile is known, including a cylindrical metal holder with chamfers on the inner surface, covering the cylindrical end sections of the sections to be joined, the ends of which are adjacent to each other, where the end section of each section to be joined consists of two cylindrical sections of different diameters connected by a transition truncated cone, the smaller base of which is facing the end face of the section and is made with a diameter smaller than the inner diameter of the metal casing [a.s. SU 681153, 1979, E02D 5/52]. A disadvantage of the known butt joint is the likelihood of module displacement and insufficient reliability due to the possibility of destruction of the butt joints of the pile during skew during driving.

A support structure is known, including a driven support column, consisting of separate vertically mated sections that are interconnected on end surfaces using connection nodes made in the form of spherical protrusions and recesses located on the mating end surfaces of adjacent sections inside the contours of the latter. The disadvantage of this design is the difficulty in manufacturing and fixing piles.

The closest in technical essence to the claimed technical solution is a modular reinforced concrete pile with a junction of the glass type, selected as a prototype ["Piling works" Reference book of the builder. M., Stroyizdat. 1988., p. 33, Fig. 11, 13], which includes a cylindrical tubular cup for mutual installation of two pile modules, rigidly fixed to the lower link of the pile module using reinforcement outlets welded to the inner surface of the tubular glass. The disadvantage of this design is the lack of centering of the upper and lower modules of the pile relative to each other, as well as the high probability of displacement of the modules when the pile is immersed in the ground.

The technical task of the proposed technical solution is to create a design that eliminates the displacement of the modules of a self-centering modular pile during its immersion in the ground by centering when driving, as well as an increase in the strength and bearing capacity of the joint when working under load.

To solve the technical problem, a self-centering modular pile with a junction of the glass type is proposed, including a cylindrical tubular glass covering the joined ends of the pile modules, which are made in the form of paired hemispherical surfaces in the form of a recess and a protrusion, respectively, with the radius of the recess being 2- 5%.

In order to protect the pile modules from damage when immersed in the soil, it is better to use the special headgear of the proposed design, the lower part of which has a shape identical to the shape of the protrusion of the pile module end face.

The utility model is illustrated by drawings, where Fig. 1 shows a module of a self-centering modular pile with a junction of a glass type; figure 2 - pairing modules piles in the form in longitudinal section; and in Fig.3 - the pairing of the headgear with the pile module during the driving process in a longitudinal sectional view.

The utility model is illustrated by examples.

The self-centering modular pile with the junction of the glass type 1 includes the lower module of the pile 2 and the upper module of the pile 3, the abutting ends of which are made in the form of paired semi-spherical surfaces. The radius R1 of the hemispherical surface in the form of a recess of the lower module of the pile 2 is made greater than the radius R2 of the hemispherical surface in the form of a protrusion of the upper module of the pile 3 by 2-5%. In order to protect the upper part of the lower module 2 from destruction during the immersion process, use a headgear 4, the shape of the lower part of which is identical to the shape of the hollow of the glass part of the lower module of the pile 2.

The process of docking the pile module is as follows.

A headgear is inserted into the glass part of the lower module of pile 2, through which the shock load R is transmitted to it. The shape of the lower part of headrest 4 exactly repeats the shape of the depression of the glass part of the lower module of pile 2. Heads 4 are inserted into the glass part of the lower module of pile 2 and make several hammer blows copra until this module enters the ground so that its cup portion is accessible for joining the next module, in particular the upper module of the pile 3. Then the headgear 4 is removed from the upper end of the lower module of the pile 2, and The lower end of the upper module of the pile 3 is inserted into the glass part of the lower module of the pile 2. Next, applying pressing forces, immerse modules 2 and 3 into the ground, at the same time they are self-centering due to the configuration of the above-described joint of the glass type 1.

The above examples were used only to illustrate the feasibility of the claimed utility model. These examples are not intended to limit the scope of legal protection presented in the formula, while a specialist in this field is relatively simple to implement other options for implementing the utility model, either according to any of the embodiments disclosed in the description, or in any combination of these options within the scope legal protection.

Claims (2)

1. Self-centering modular pile with a junction of a glass type, including a cylindrical tubular glass covering the joined ends of the pile modules, characterized in that the joined ends of the pile modules are made in the form of paired hemispherical surfaces in the form of a recess and a protrusion, respectively, and the radius of the recess is made larger than the radius of the protrusion by 2-5%. 2. The headgear for the self-centering pile according to claim 1, the lower part of which has a shape identical to the shape of the protrusion of the end face of the pile module.