RU2045623C1 - Composite pile - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: composite pile comprises jointed sections provided with embedded parts and positioned so as to form clearances between their ends, and connecting members holding together the embedded parts of the jointed sections. The composite pile is characterized in that each joining member has the form of a cover plate secured to the embedded parts of joined sections by a pair of studs one of which has a cone-shaped head and a cylindrical threaded stem while the other one has a cylindrical threaded head and a conical stem. The cover plate has holes for studs, one of said holes being conical to receive the cone-shaped head of one stud while the other one is of a cylindrical threaded shape to receive the head of the other stud. The embedded parts of the sections being joined have, respectively, a cylindrical threaded hole coaxial with the conical hole in the cover plate, and a conical hole coaxial with the cylindrical threaded hole in the cover plate. There are clearances between the embedded parts and the facing surfaces of the stud heads. EFFECT: higher reliability of the joints under dynamic forces applied during jointing, primarily of reinforced-concrete piles. 1 dwg

Description

 The invention relates to the construction, in particular to the construction of piles, mainly to composite reinforced concrete piles.

A composite pile is known, which includes sections with a hard lock fixed in the center of the pile and so that the abutting surfaces are perpendicular to the axis of the pile. The lock consists of a shell, connecting elements attached to embedded parts in concrete piles, with coaxial holes and a cotter pin, hammered into them after assembly sections [1]
The disadvantages of this pile include the fact that clogging the cotter pin does not provide uniformity of effort in adjacent locks. In addition, there is a risk of damage to the connecting elements when the lower section of the pile is immersed in the ground.

Another composite pile is known, including embedded sections having embedded parts located with the formation of gaps between the ends of the embedded parts, and connecting elements fastening the embedded parts of the joined sections, the ends of the connected sections facing each other made in the form of mating profiles, and the stops are placed on the inside surface sections and each of them is formed as a plate with a chamfer angle of less than ^90, the remote end of the joint zone, and each detaching device is in the form Ob cushioning coaxial stops of adjacent sections of tension brackets with protrusions at the ends having bevels adjacent to the bevels of the stops [2]
The disadvantage of this pile is the unreliability of the connecting elements under dynamic impacts, in particular when piling, and the inability to use this principle for joining reinforced concrete piles of a solid section, since the tension brackets are placed inside the pile.

The problem to which the invention is directed, is the creation of a composite pile, in which the sections are joined by tight mutual fit them with their concrete surfaces while eliminating the above-mentioned disadvantages inherent in the device [2]
The technical result that can be obtained by carrying out the invention is to increase the reliability of the joint during dynamic impacts when joining primarily reinforced concrete piles.

 A composite pile includes embedded sections having embedded parts located with the formation of gaps between the ends of the embedded parts, and connecting elements fastening the embedded parts of the joined sections. A composite pile is distinguished by the fact that each connecting element is made in the form of a lining attached to the embedded parts of the sections to be joined using a pair of studs, one of which has a conical head and a cylindrical threaded shank, and the other a cylindrical threaded head and a conical shank, and holes are formed in the overlay under the studs, one of which is tapered under the conical head of one stud, and the other cylindrical threaded under the head of the other stud, and in the embedded parts of the connected sections azovany correspondingly threaded cylindrical hole coaxial with the conical opening in the cover plate and the conical hole coaxial cylindrical threaded hole in the patch, the mortgage between items and surfaces facing thereto studs are formed gaps heads.

Causal relations between the set of essential features of the invention and the achieved technical result are manifested in the following:
since the embedded parts of the joined sections and the lining are interconnected using studs on the thread, the reliability of the composite piles for dynamic effects is ensured;
since the overlays can be placed both inside the pile and on its external sides, such a joint can be applied to piles of a continuous section.

 The drawing shows the joint section of the composite piles.

 The composite pile consists of joined sections 1 equipped with embedded parts 2 attached to the reinforcement 3. A gap 4 is formed between the end planes of the embedded parts. The joined sections are connected by means of a cover 5 and studs 6 and 7, and the stud 6 has a cylindrical threaded head and a tapered shank 8 and hairpin 7 conical head 10 and a cylindrical threaded shank. The stud 6 is screwed into a cylindrical threaded hole in the embedded part, and its tapered shank is aligned with the tapered hole in the patch. The stud 7 is screwed into a cylindrical threaded hole in the plate, and its conical head is aligned with the conical hole in the embedded part. Between the embedded parts 2 and the surfaces of the heads of the studs 6 and 7 facing them, gaps 9 and 11 are formed. The studs have curly recesses 12 for screwing. The holes in the embedded parts are closed from the ingress of concrete by covers 13. The accuracy of combining the mating sections 1 is provided by the clips 14. The mutual fit of the concrete surfaces 15 of the mating sections 1 is provided, for example, by means of glue.

 After the lower section of the pile is immersed in the soil, its abutting surface is lubricated with glue and the upper section is installed on it. Then, holes 6 and 7 are installed in the holes in the overlay 5, which are combined with the corresponding holes in the embedded parts 2. The studs are screwed into the threaded holes until they stop. Moreover, due to the presence of conical elements 8 and 10 in the studs and clearances 9 and 11, tight contacts are ensured between the cover 5 and the embedded part 2 and between the stud 7 and the embedded part 2. In the process of screwing the studs, their concrete surfaces of the sections being joined are pressed against squeezing out excess glue. During operation, the reliability of the composite piles for compression with bending is ensured by the transmission of compressive stresses in the joint through adjacent concrete surfaces, and tensile stresses in the reinforcement 3 from one section to another through embedded parts, studs and plate.

Claims (1)

 COMPOSITE PILES, including embedded sections having embedded parts located with the formation of gaps between the torps of embedded parts, and connecting elements fastening the embedded parts of the joined sections, characterized in that each connecting element is made in the form of a lining attached to the embedded parts of the joined sections with a pair studs, one of which has a conical head and a cylindrical threaded shank, and the other a cylindrical threaded head and a conical shank, and in the overlay holes for the studs, one of which is tapered under the conical head of one stud and the other cylindrical threaded under the head of the other stud, respectively, a cylindrical threaded hole coaxial with the conical hole in the patch and a conical hole coaxial with the cylindrical a threaded hole in the patch, while gaps are formed between the embedded parts and the surfaces of the heads of the studs facing them.