RU2299950C1 - Composite pile (variants) - Google Patents

Abstract

FIELD: construction, particularly pile foundations, namely composite precast piles.

SUBSTANCE: composite pile comprises pile module including stem with ends. At least one end is provided with at least one elongated slot made as blind hole and adapted to receive joint bar for one module connection with adjacent one. Pile module has end plate with through orifice aligned with elongated slot and connected to pile module end by means of embedded members so that end plate touches the end. End plate does not project beyond the edge of the second pile module end. Pile module additionally comprises covering plate fastened to end plate from pile module outside and touches the end plate. Covering plate is provided with through orifice aligned with that formed in end plate. Covering plate has dimensions defined in plan view smaller that corresponding dimensions of end plate and is connected to end plate so that end plate edge protrudes beyond covering plate edge. Composite pile comprises pile module with stem having polygonal cross-section and defined by ends. At least one end is provided with at least one elongated slot made as blind hole and adapted to receive joint bar for one module connection with adjacent one. Pile module has end plate with through orifice aligned with elongated slot and connected to pile module end by means of embedded members so that end plate touch the end. End plate is shaped as polygon and conforms to cross-section of pile module stem. End plate corners are cut so that pile module end corners project outside end plate edge at cut corners thereof.

EFFECT: increased stability of pile modules in joint areas and improved pile module resistance to dynamic load to be applied to pile during pile driving in ground.

25 cl, 1 ex, 3 dwg

Description

The invention relates to the field of construction, in particular to pile foundations, namely to driven modular piles.

Various designs of composite piles assembled from individual pile sections are known. For example, a composite pile is known, containing connecting elements in the form of a pad attached to the embedded elements of the joined pile sections (patent RU 2045623, publ. 10.10.1995). It is known that composite piles are also called modular, and their sections - modules. For example, a modular pile is known, the pile module of which includes a reinforced concrete shaft with a protrusion and shoulders on the upper end and a nest under the protrusion on the lower end (AS SU 1561574, published on June 27, 1996). The designs of such piles are relatively complex.

Simpler designs of butt joints of driven pile modules are known. Such joints contain a metal rod protruding from the lower end of one pile module, and a longitudinal socket for the rod from the upper end of another module, for example, according to one of the designs made in the form of a mortise sleeve (AS SU 1557258, publ. 04/15/1990 ) or, according to another design, in the form of a coaxial channel directly in the body of the pile module, while the connection also includes a gasket with a hole for the rod (AS SU 1393878, publ. 07.05.1988).

Known self-locking butt connection of pile modules, the design of the pile module of which is selected as a prototype (patent US 3625012, publ. 07.12.71). The pile module of this modular pile contains a reinforced concrete trunk bounded by two flat ends, a first socket in the form of a blind hole coaxial to the trunk for a metal docking rod made on the first end, a second socket in the form of a embedded sleeve to the pine trunk on the second end, a metal plate with a central hole mounted on the second end with the help of embedded elements and adjacent to it, and the plate does not protrude beyond the second end, and the embedded sleeve adjoins the edges to the central opening thia in the plate.

A common drawback of the above-described modular piles is that when such piles are immersed in the soil, the end edges of the pile modules are prone to chipping under the influence of dynamic loads, such a chipping is often an unrecoverable defect, requiring replacement of the immersed pile. Moreover, in the prototype, such a chip is more susceptible to the edges of the end face that is not covered by the plate, and at the end that is closed by the plate, the edges at the corners of this end face are more susceptible to chips.

The technical task to be solved is to increase the resistance of pile modules in places of their connection to the action of dynamic load when a modular pile is immersed in the ground.

Two modular pile designs are offered.

According to the first embodiment, the modular pile includes a pile module, which contains a shaft bounded by the ends, at least one longitudinal socket at least at one end in the form of a blind hole, configured to insert a docking rod for joining with an adjacent pile module, an end plate with a through hole, combined with a longitudinal socket, which is fixed on the same end with the help of embedded elements and adjacent to it, and the end plate does not protrude beyond the second end. To redistribute the loads from the edges to the central part, the modular pile further comprises a patch plate, which is attached externally to the end plate, adjacent to it, and has a through hole aligned with the hole in the end plate, and the patch plate is made with plan dimensions smaller than the corresponding the dimensions of the end plate, and is fixed to the end plate so that the edges of the end plate protrude beyond the patch plate.

According to a second embodiment, the modular pile includes a pile module, which comprises a polygon-shaped cross-sectioned trunk defined by ends, at least one longitudinal socket at least on one end in the form of a blind hole, configured to insert a docking rod into it for joining with adjacent pile module, an end plate with a through hole aligned with a longitudinal socket, which is fixed to the same end using embedded elements, adjacent to it and has dimensions and shape ogon corresponding to the size and shape of the polygon of the cross section of the trunk. In order to avoid angular stresses and, as a consequence of this, chipping of the protective layer at the corners of the sections at the time of their driving, the corners of the end plate of the modular pile are cut so that the corresponding corners of the end face extend beyond the end plate at the places of corner cuts.

For both options there are special cases of execution, described below.

To facilitate the installation of docking rods, the modular pile may comprise a second longitudinal socket at the other end, while the modular pile may respectively comprise a second end plate with an opening at the other end aligned with the second longitudinal socket, where the dimensions and the shape in plan of the end plate of the modular pile may correspond the size and shape of the butt. It is possible to manufacture the barrel of a modular pile from reinforced concrete, and the end plate and patch plate from steel. The trunk of the modular pile may contain a steel reinforcing frame, including longitudinal and transverse reinforcing elements, it is better when the transverse reinforcing elements of the modular pile are located more densely near the ends. The embedded elements of the modular pile can be made of steel and fastened to the steel reinforcing frame by welding, it is better when the embedded connecting elements of the modular pile are made in the form of anchors. For ease of installation, the docking rod is better when the longitudinal socket of the modular pile is aligned with the trunk. The modular pile can be made of constant square cross-section. During installation, the finished modular pile can have steel docking rods and gaskets in the kit, it is desirable that their size and shape correspond to the size and shape of the end, where the gasket can have a through hole for the docking rod.

The invention is illustrated by drawings. Figure 1 shows in section a main view of the pile module. Figure 2 and figure 3 shows side views of the end parts of the pile module, left and right, respectively. Dashed lines in figure 1 show additional elements of the butt joints of pile modules.

The invention is illustrated by the example of reinforced concrete modular piles designed for the construction of pile foundations using non-waste technology.

The pile is made of reinforced concrete pile modules 1 with a length of 6 m of a solid square cross section of 300 × 300 mm of full factory readiness. Pile module 1 (see Fig. 1) is made of heavy concrete of class B 25 and reinforced with a spatial frame, which consists of working longitudinal reinforcement 2, transverse clamps 3 and nets 4. As longitudinal reinforcement 2, rod A-type hot-rolled reinforcing steel is used 111, and for transverse reinforcement, that is, clamps 3 and nets 4, wire of class BP-1 is used. On the flat ends of the pile module 1, perpendicular to its axis, nests 5 are made in the form of blind holes, into which, when docking adjacent pile modules, the connecting rods 6 are made of hot-rolled reinforcing steel of class A-111. The ends of the pile module 1 are limited by the end plates 7 with dimensions in plan corresponding to the sizes of the ends having through central holes 8 aligned with the sockets 5 (see Fig. 2). The end plates 7 are welded to the frame members 2-4 using anchors 9 from reinforcing steel rods, while the transverse clamps 3 are laid near the ends to the depth of the anchors 9 with a smaller pitch than the rest of the length of the pile module 1, this step is 50 mm and 100 mm, respectively, and the grids 4 are also laid near the ends to the depth of the anchors 9. A distribution plate 10 is welded to one end plate 7 with a plan size of 200 × 200 mm, also having a through central hole 11 (see Fig. 3). The outer surfaces of the plates 7 and 10 have a paint and / or galvanized anti-corrosion coating, they are made of steel sheet 5 mm thick. The corners of the end plates 7 are cut by cutouts 12 in the form of triangles with legs 30 mm. The implementation of the invoice plate 10 with dimensions smaller than that of the end plate 7, allows you to redistribute the dynamic load of driving on the area of the end from its edges to the Central part, and cutouts 12 reduce the likelihood of chipping of the corners of the ends. To facilitate the initial installation of the docking rod 6 along the edges of the central holes 8 and 11, external chamfers are made.

When the pile modules 1 are docked into the socket 5 of the protruding upper end of the pile module 1 immersed in the ground, the connecting rod 6 is hammered with interference, which then passes through the central holes 8 and 11 in the plates 7 and 10. A sealing plastic strip 13 is put on the connecting rod 6 ( see Fig. 1) and then insert the next pile module 1, on the lower end of which there is no patch plate 10, while the upper end of the docking rod 6 with an interference fit into the socket 5 through the Central hole 11, and then continue beyond bending a modular pile to the required depth.

The above example is used only to illustrate the possibility of carrying out the invention and in no way limits the scope of legal protection presented in the claims, while a person skilled in the art is relatively easy to implement other ways of carrying out the invention.

Claims (25)

1. A modular pile, including a pile module, which contains a shaft bounded by the ends, at least one longitudinal socket at least at one end in the form of a blind hole, configured to insert a docking rod into it for docking with an adjacent pile module, an end plate with a through hole aligned with the longitudinal socket, which is fixed on the same end with the help of embedded elements and adjacent to it, and the end plate does not protrude beyond the second end, characterized in that it contains a patch plate, which is attached externally to the end plate, adjacent to it, and has a through hole aligned with the hole in the end plate, and the patch plate is made with dimensions smaller in plan than the corresponding dimensions of the end plate, and is fixed to the end plate so that the edges of the end plate protrude beyond the boundaries of the patch plate. 2. The pile according to claim 1, characterized in that it contains a second longitudinal nest at the other end. 3. The pile according to claim 2, characterized in that it contains a second end plate with a hole on the other end, combined with a second longitudinal socket. 4. The pile according to claim 1, characterized in that the dimensions and shape in terms of the end plate correspond to the size and shape of the end face. 5. The pile according to claim 1, characterized in that the barrel is made of reinforced concrete, and the end plate and patch plate are made of steel. 6. The pile according to claim 5, characterized in that the barrel contains a steel reinforcing frame, including longitudinal and transverse reinforcing elements. 7. The pile according to claim 6, characterized in that the transverse reinforcing elements are located more densely near the ends. 8. The pile according to claim 6, characterized in that the embedded elements are made of steel and fastened to the steel reinforcing frame by welding. 9. The pile according to claim 1, characterized in that the embedded elements are made in the form of anchors. 10. The pile according to claim 1, characterized in that the longitudinal nest is made coaxial to the trunk. 11. The pile according to claim 1, characterized in that it is made of a constant square cross section. 12. The pile according to claim 1, characterized in that it is equipped with a steel docking rod. 13. The pile according to claim 1, characterized in that it is equipped with a gasket with dimensions and shape corresponding to the size and shape of the end having a through hole for the docking rod. 14. A modular pile, including a pile module, which contains a trunk with a cross-section in the form of a polygon, bounded by the ends, at least one longitudinal nest at least at one end in the form of a blind hole, made with the possibility of inserting into it a docking rod for joining with adjacent pile module, an end plate with a through hole aligned with a longitudinal socket, which is fixed to the same end using embedded elements, adjoins it and has the size and shape of a polygon, respectively corresponding to the size and shape of the cross-sectional polygon of the barrel, characterized in that the angles of the end plate are cut so that the corresponding angles of the end face extend beyond the end plate at the places of the corner cuts. 15. The pile according to 14, characterized in that it contains a second longitudinal nest at the other end. 16. The pile according to clause 15, characterized in that it contains a second end plate with a hole on the other end, combined with a second longitudinal socket. 17. The pile according to 14, characterized in that the barrel is made of reinforced concrete, and the end plate is made of steel. 18. The pile according to claim 17, characterized in that the barrel comprises a steel reinforcing frame, including longitudinal and transverse reinforcing elements. 19. The pile according to p. 18, characterized in that the transverse reinforcing elements are located more densely near the ends. 20. Pile according to claim 18, characterized in that the embedded elements are made of steel and fastened to the steel reinforcing frame by welding. 21. The pile according to 14, characterized in that the embedded elements are made in the form of anchors. 22. The pile according to 14, characterized in that the longitudinal nest is made coaxial to the trunk. 23. The pile according to 14, characterized in that it is made of a constant square cross section. 24. The pile according to 14, characterized in that it is equipped with a steel docking rod. 25. Pile according to 14, characterized in that it is equipped with a gasket with dimensions and shape corresponding to the size and shape of the end having a through hole for the docking rod.

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